SCIENTIFIC ABSTRACT KORZH, P.D. - KORZHAYEV, S.A.

. . "114-ft-sawl, VILYUSO LA Zead determination by the absorption of radioactive rays in lead ore concentration products. Izv. vys. ucheb. zav.; tavet. met. 5 no.6:35-40 062. (MIRA 16:6) 1. Magnitogorskiy gornowta3-lurgicheskiy institut., kafedra fiziki. (Lead ores-Aralysin) (Padioisatopes-*Industrial applications)  PHASE I BOOK E(PLOITATION BOV16181 Vral'skoye moveshchAnlys po spektrookopll. 3g, Sverdlovsk, 1960. Materl&13~ (Materials of,;the Third Ural Conference an Spectros- copy) Sverdlovsk, Metallurgizdat, 1962. 197 p. Errata slip Inserted* 3000 copi. rinted. Sponsoring Agencies: 1=1tut fitiki metallov Akademil nauk SSSR. Komlsslya po spsktros~opiij and Ural skly dom tokhniki VSNTO. Zds.~(Tltle page)s 0. Skornyakov, A. B.-Shayevioh, and S. 0. Bogomolovj Zd. t Oennadly Pavloviah Skornyakowl Ed. of Publish- Ing Houses N. L# Kryz~ova; Tech. Ed.i N. T. Mallkova. PURPOSEs The book, a col2setion of-articlos, Is intended for staff members of spectral analysis laboratories In Industry and scien- tifie research organizations, as well in for students of related disciplines and for technologists utilizing analytical results.  gaterlals of-th* Third Ural Conference (Cont.) BOT16181 COVERAM. The collection presents theoretical and practical prob-I lems of the application of atomic and mol:cular spectral analy-1 ale ~ In controllink the chemical compositi n of' various material in ferrous and nonferrous metallurgy, geology, chemical Indus-, try' and medicine. 1 fte authors express their thanks to 0. V. Chenteova for help in preparing the matorlala for the press. References follow the Individual articles. TAME OF CONTWTS: Foreword PARTI Sherstkov, Tu. A.; and L. P. Makelsovskly, Inzatiption of the dependence of the total Intensity of ape tral lines on the concentration of elesients In an aro-d1schArle Plasm4 Card 2,45 I'A 0  Materials'of the.Third 'Ural Conference,(Cont.-) S.07/6181 -.-Sventitaklys N. S. Current state of visual spectral &=27#18 206 Shtutman, M.. N. FXfect of Ionio'composition in spectral analysis of slags 1W ..-Shtutman, M. N. Utilization of chemical processes as means. for eliminating the effects.oflonic composition In spectral-analysis of slags Lesn1kova, Ye. N. Slag analysis, w1th umb of fuAng agents,, by means of spectrographe and the WC-1 [photoelectric stylometerl 120 Pbrzh. P.-A.s and V. Ye. Perervae~ -Spectral method for determination of niobium and.zi.roonium in oresp concen- trates,. and."tails" 123 -Ca" 9/15  KORZH, P.D.; IVANOV, V.I. Determination of Iron in an agglomerate based on the absorption of radioactive radiation. Zav.lab. 28 no.8:965-966 162, (MIRA 15:11) 1. Mapitogorskiy gornametallurgicheakiy institut. (Iron-Analysis) (Radioactivity--Measurement)  SKOItOKHODOV I 11.Ye., prof. otv. red.; AGAPOV, V.F. , prof. p0 nauchnor, rabote, dots.., red.; BOYARSHI1,OVp M.I., prof,,, red.; VFSELOVSKAYA, Ye.S.p red.; GAGEN-TORN, A.V., red.; GOLIDSHTEYNy V.A.,, red.; IVANOV, N.I., kand. tekhn. nauk, 4,As., red.; KORZH, P.D., prof., red.; PETROV, V.M., dots. kand, tekhn. # reab (30 years of the Magnitogorsk Mining and Metallurgical Institute] XXX let MGMI. Magnitogorsk, 1962. 170 p. (MIRA 17.93) 1. Magnitogorsk. Gorno-metal-lurgichoskiy institut. 2. Sekretarl partiynogo byuro Magnitogorskogo gorno- metallurgicheskogo institute, (for Petrov). 3. Dekan me- tallurgicheskogo fakultteta Magnitogorskogo gorno-metal- lurgicheskogo instituta (for Ivanov). J+. Zaveduyushchiy kafedray fiziki Magnitogorskogo gorno-metallurgicheskogo institute. (for Korzh). 5. ZavediVushchiy kafedroy obrabotki metal-lov davleniye.. Magnitogorskogo gorno-metallurgichaskogo instituta (for Boyarshinov).  KCRZH, P.D.. GULYAYEVA, G.P.; GINIYATULIN, I.N. .---2t ---* ~ Thermoelectric method jeor determining antimony in 1e -antimony alloys. Zarslab. 29 no.3:289-291 163* (&.10;2) 1. Magnitogorakiy gorno-metallurgicheak4y inatitut. (Antimon~--Analysi,(S) (IA"timony alloys) Thermoelectricity)  IVANOV, V.I.; KQRZH, P.D. Radiometric determination of iron in sulfide ore concentrates and agglomerates.- Zav.lab. 29 no.11:1296-1298 163. (MIRA 16t12) 1. Magnitogorskiy gorno-metallurgicheskiy institut.  FOWNA, M.A.; KORZH, F.D. "I so W"W&WW,* ~Depetdence of the reflecting power of binary alloys (Pb - Sb and Cu - F~) 'on their phase composition. Izv. vys. ucheb. zav.; fiz. no.,3:41-45 164* (MIRA 17:9) 1. Magnitogorskiy gorno-metallurgicheskiy institut.  VELYUS, L.M~; P.D. - Selecting the optimal parameters for the radiometric determina- tion of lead In beneficiation products. Izv. vyo. ucheb. wav.; tsvet. met. 7 no. 4M39-46 164 (MIRA 19~1) 1. Magnitogorskly gornometallurgicheskiy institut- kafedrq fizilki.  MMIKO-SMIN, Leonid Alskeandrovich; LISMSKIT, Nikolay Longinovich; SUARTS. Tiktor Aleksandrovich;_XQMJFcAr Ivan -W-MA. oyUhL PRO' G.F.. akademik. retsenzent EdeCeased]; YKRSHOT, T.N.. dotsent. kand.tokhn.nauk. retsenzent; SMCU. K.5.. red. (Atlas of drawings and diagram of gas turbine units] Atlas konstruktall I ekhem gazoturbinnykh ustanovok. Pod obahchei red. L.A.Shubanko-Shabina. Moskva, Goo.nauchno-takhn.izd-vo mashino- stroit.lit-rys 1960, 183 P. WRA 14:1) 1. Chlen-korrespondent AN UM (for Shubanko-Shubin). 2. AN UM (for Proskura), (gas turbine s-De sign)  -inzh KAKMI, M.P., inzh.; -1SHUBF,NKo--sHUBIN, L.A.; PALEYp V.A., NZ7H. Gas turbines for large power stations. Teploanergatika 8 no.11: 5-12 N 161. (MIRA 14:10) 1. Khartkovskiy turbinnyy zavod. 2. chienkorrespondent - AH U35R (for Shubenko&Shubin). (Gas turbines)  3747 s/193/6Z/000/003/004/005 AOO4/A101 AUTHOR: Korzh, P. I. TITLE: FT Y' -50-800 (GTU-50-800) gas-turbine plant PERIODICAL: Byulleten' tekhniko-ekonomicheakoy informatsii, no. 3, 1962, 35 - 37 T EXT The Kharlkovskiy turbinny zavod (Kharlkov Turbine Plant) has deve- loped and produced the first pilot model of the 50 Mw power GTU-50-800 gas-tur- bine plant, which is stated to be the first 50 MW power gas-tv 'rbine plant operat- ing on natural gas able to compete with stem-turbine plants. The GTU-50-800 gas-turbine plant has an.open operating cycle with three comprepsion.stages (low, medium and high-pressure compressors), two intermediate air coolers, two stages of gas heating, heat regeneration of exhaust gases and district heating. The author gives the following technical data: power at an ambient air temperature of +200C'- 50 Mw; degree of pressure increase - 18; gas temperature before the high-pressure turbine -8000C; gas temperature before the low-pressure turbine 770 C; regenerating degree - 0.75; efficiency at the rated load - 33.5%; ef- Card 1/2  +CCESSION NR: AP4038898 S/0114164/000/005/0006/0009 AUTHOR: Korzh, P. I. (Engineer); Pavolotskiy, L. V. (Engineer); rkad'yev, B. A. (Engineer) Knabe, A. 0. (Engineer); A TITLE: Investigating nonsteady operation of cooled* disk-type rotor of a gas turbine SOURCE: Energomashinostroye e, no. 5, 1964, 6-9 ty TOPIC TAGS: turbine, gas turbine, gas turbine quick starting, gas turbine nonsteady operation, gas -turbine disk rotor Ai ABSTRACT: Peak-load or reserve gas turbines in power-supply systems operate iV :under repeated start-stop and quick-start conditions. Hence, it is essential to know the behavior of the most important gas -path parts subjected to varying high. temperatures. Results of an experiinental investigation of the temperature field in a disk-type rotor under nonsteady-ope rating conditions are reported. The i temperature fields were measured under these conditions: (a) starting from tho -cold state without'warming up; the maximum gas temperature was attained in f", Card J/Z  ACCESSION NR: AP4038896 1-1.5 min, andthe ratedlo&dwas taken in 3.S-4 min.- (b) startingwith& 5-n-Anj.-_ 6-rpm, 520-55OC-gas warm-up; and (c) starting one hour after the turbine '401 shutdown, with the disk temperature 20-300C. Stresses in the disk (hub. tip) were estimated. These conclusions were reached: (1) Cold starting is not limited by the disk stresses; (2) The radial-blow system of cooling the test turbine is satisfactory; (3) No A. Minyaylenko's method ("Determining temperature fields and stresses in gas-turbine disks,". AN UkrSSR. 1960) ensures good agreement with the experiment. Orig. art. has: 6 figures, I formula. and 3 tables. 'ASSOCIATION: none SUBMITTED: 00 DATE ACQ: 65jun64 ENCL: 00 SUB-CODE: PR NO REF SOV: 006 OTHER: 000 :,.Card .2/2 -TIP 1. ~-Wvaiw gr  KORN. P.I.j. inzh.; POVOLOTSM, L.V.; KNPBE, A.^V.; APIAD'YEV, B.A. Study of the nonsteady mode of operation of a cooled disc rotor of a gas turbine. Energomashinostroenia 10 no.5:6-9 My 164. (MIRA 17z8)  I~ORZII,_-P. M. (Vet.) "On the morbidity of calves." SO- Vet. 26 (lo) 1949, p. 14 Tsirk-unov Zooveterinary DiBtrict, Kharkov raion Ukrainian SSR  PUSTOVAR, Ya.P,, dots,; SILUMUGA, N.Yo., dots.,00RUP P.M.. vetvrach. G"cor of the e7e region in cows. Tleterinariia 35 no,4:57-6Z Ap 158, (KIRA 1113) 1, Marlkovskly voterinarnyy lustitut, *e--Canoer) (Cows-Diseamem and posts)  KOKIH, S.B. (Baranovichi, DrestskoylbIxtati. Shosseynaya ul.. d.55) - -.'. Ton yenrs' results of the activitien of the Municipal Oncological Dispenenry In BaranovIchi [with summa77 in EnglishIs Vop.onk. 4 n0-3062-267 158 (MIRI 11.08) 1. Is gorodskogo onkologicheskogo dispansera (glRvxwy vrach - SoBe Korsh), Barnnovichig BWRe (NWPLASKS. prevention and control, In RueNta (Ban))  KO H. S-R-- kand. med. nauk - Life e3mectancy of cancer patients. Zdrav. Belor. 5 no.3:41-42 Mr 159. (NIFA 12:7) 1. Is Baranovichakago gorodskogo onkologicheakogo dispansera. (CANM)  KORZH, V. It is necessary to keep the staff.of specialists. Mies. ind. SSSR 33 no./+:42- 162. (MIRA 17:2) 1. Dnepropetrovskiy myasokombinat.  USSR /themical Technology. Chemical Products 1-31 and Their Application Fermentation Industry Abs Jour: Referat Zhur - Khimiya, No 9, 1957, 32859 Author Korzh V. A. Title Malt Production from Rye Orig Pub: Spirt. prom-st', 1956, No 4, 35-36 Abstract: Cleaned and sorted grain is charged to the steep- Ing vat at the same time as the water. After charging is completed compressed air is blown into the vat and at the same time water is ad- mitted at the bottom (22-230). The grain is washed for 80-90 minutes and allowed to steep under water for 3.5 additional hours. The water is discharged and the grain is unloaded in C ard 1/3  USSR /themical Technology, Chemical Products T-31 and Their Application Fermentation industry Abs Jour-. Referat Zhur - Khimiya,, No 9, 1957, 32859 a heap.- Moisture content of the steeped grain is 36-37%, The grain is kept in a heap until the temperature rises to 19-200, after which it is spread out in a layer 15 cm deep, During the first day the temperature in the layer Is 19-20'2, the grain is shoveled-over 3 times with addition of 1.5-2 decaliters of water per ton of grain, During the next 3 days the tempera- ture in the layer is maintained at 19-206, shoveling-over 3 times daily with addition of 2.5-3 decaliters of water per ton of grainj depth of layer 10 cm. On the 5-th day the temperature drops to 170, the addition of water prior to the shoveling being reduced to 1-1.5 decaliters per C ard. 2A  9 BOGATYREV, A.V., inzh.; KORZH,, V.D., inzh. Wayo to improve the repair of line machinery and e uipmeAt. Stroi. truboprov. 6 no.5s26-27 ~y 161. NIM 14:7) 1. Trest Mosgazprowodstroy. - (Building machinery-Maintenance and repair)  ACC,, NRt, AP7007054 SOURCE CODEE : Ulf/01W66/009/004/0458/0465 AUTHOR: Vaganov, V. I.; KorzN_A._k-_, OkG:- none TITIE% Complementing dynistor flip-flops SOURCE: IVUZ. Radlotekhnika, v. 9, no- 4, 1966, 458-465 TOPIC TAGS: flip flop circuit, RC circuit, differentiating circuit ABSTRACT: On the basis of the equivalent circuit of a dynistor the authors perform a qualitative analysis of the transient re- sponse In the flip-flop in the phase plane (current across the dyhlstor-voltage In dynistor). Two different flip-flop circuits axle proposed and analyzed; one with load capaoitanoe and the other-with separation capacitance. The mechanism of operation of both circuits in the presence of triggering pulses of positive and negative polarities Is el-acidated. The qualitative effeot'of. 'parameters on the performance of the flip-flops Is established, and the possibility of cascading such circuits In demonstrated Thus It is shown that even the most elementary complementing flip-fl6pe for a singie dyulstor can be cascaded by means of a differentiating RC-oirouit,,,and the performance of the scaling 'devioe obtained by oa-soading depends not only on the selection Card 1/2 UDC. 621-373-45:  'ACC NRt AP7007054 #of the pars eters of the differentiating o1roUit but also on the irapidity of aotion of the dynistor. This analysis waa ca=ied out on the assumption that the equivalent o1roult of the dynistor 'represents a serieB-connected pair of elementas a nonlinear voltage !.generator U, a f (Z) and a current- In4ependent. UAuotanoe L. an& that the input pulses are'of ideally square shape. Origo art. has: U figures and 2 formulas. EJW.S: 39#5771 SUB CODE: 09  ZVYAGINTSEVP A.F.; IVANOV, Yu.N.; KAZAKOVO V.E.; STETSENKO, A.M.; SOIDMDVICHO M.Ya.; AP.RP"-Y,#,TA; DASHKEVICH, A.A.; Prinizali uchastiye: LIPTSFNV S.Kh.; RYZHIKOV# A.P.; STALINOWTSKIY, V.N.; LEVENETSp L.Ye.; 140GILAp V.A.; KOVALIO A.A.; VIASOVS V.F.; ROSHCHINp A.G.; RAYKO,, V.P.; KORNIYENKO, V.G.; PANTYUSHKINJ, N.V. Investigating the possibility of manufacturing all-rolled electric locomotive wheels with existing equipment. Kuz.-shtam. proizv. 5 no.11:11-14 N 163. (MIRA 17:1)  V. i- rm r -a, TPZ. Radlotekhnika, v. 6, no. 2, 1965, 253- 2~ 2 A!: and SPOOd ''f -a Z, Q,  ILI 1 1 VJ I It) REERMON .1 wiramm.9 MEMO BE ME  BUTENKO., G.A.; ~ P.; RODIONOVA, Ye.11. Conditions for the separation of arsenic and production of a blue arsenic-molybdenum complex. Zhur.anal.khim. 16 no.6:692- 694 N-D 161, (MMA 24:12) I* Institut of Ferrous Metallurgy# Academy of Sciences, Ukrainian S.S.R., Dnepropetrovsk. (Arsenic--Analysis) (Molybdenum compounds)  BUTENKO, G.A.; RODIONOVAp Ye.M.; KORZH, V.P. Photocolorimetric determinatim of arsenic in ferrous metals. Zav.lab. 27 no-7:808-810 161. (MIRA 14:7) 1. Institut chernoy metallurgii Akademii nauk USSR. (Arsenic--Analysis)  38703 S/598/62/00.0/007/030/040 0 0 D217/D307" -0 5- AUTHORS: Shilov, V. I., Odinokova, L. P., Korzh, V. P. and Suyarov, D. I, TITLE.- Investigatioh of the resistance to deformation and of the specific pressures of certain titanium alloys dur- ing cold rolling SOURCE: Akademiya nauk SSSR. Institut metallurgii. Titan i yego splavy. no. 7, Moscow, 1962. Metallokhimiya i novyye splavy, 219-225 TEXT: The resistance to deformation was studied by compressing cylindrical specimens of the materials under investigation in an apparatus specially designed at the Institut metal'urgii UF/AN L (Institute of Metallurgy UP/AS). The yield-point on c*ompression in the as-received state was determined oscillographically from the pressure curve, being taken as either the yield plateau or the kink in the curve formed on transition from the elastic to the plastic state. Curves for the resistance to deformation of a num- Card 1/2  S/59 62/000/007/030/040 Investigation of the resistance D217%307 ber of Ti alloys were plotted. The conditions for cold-rolling Ti alloys were also studied and the parameters of rolling, pressurey stress and roll and reeler speeds were determined. The total pres- sure of the metals on the rolls and the forward and rear stresses in strip rolling were calculated. The authors conclude that in spite of the moderate plasticity exhibited by some of the new high-strength titanium alloys during reduction, high reductions in area are possible in*the rolling of strip under stress owing to the favorable influence of the stressed state. Reductions of V/ 20 - 30% depending on the type of alloy, are possible. The alloys in question were 7M1,1;,,(IMP2) and ;Hri" (IMP3),. produced by vacuum arc melting of tf~e alloys AT-3(AT3 ), AT4 and AT8. There are 6 fi- gures and 1 table. Card 2/2  KORZHp V.P.; SHIWV.. V.I. Equipment for the investigation of the strip rolling processo Trudy Inst.mat.UFAN.SSSR no.963-68 162. Investigating power conditions for the cold rolling of a titanium allay strip. 87-99 (MIRA 16slo)  I KORZHp V.P.; SUYAROV, D.I. Measurement, of rolling moments. Trudy Inst.met.UFAN SSSR no.9s 61-62 162. (MIRA 16%10)  SUYAROV, D.I.-,,KCRZH, V-P-; SHILOV, V.I. Using glass as a metalworking lubricant during hot rolling@ Trudy Inst.met.UFAN SS9R no.903-86 162. (KIRA 16t10)  SHILOV, V.I.; NOR PrinimAli uchastiye: W=14 I POKHLEBAYEV,- V.A.; ODINOKOVA, L.P.; ALEKSEYEV, V'.-*f.; TETZZHNIKOVA, G.H. Rolling of titanium alloy foil. Trudy Inst.met.Ur-AN SSSR no.9s 101-105 162. (MM l6slO)  ODINOKOVA, L.P.; Aq~~,-VOP.p- SHILOV, V.I. Plastic properties of certain titanium alloys. Trudy Inst.met.UFAN SSSR no.9t107-3-10 162. (KRA 16%10)  ACCESSION NR: AT4007050 0/3598/63/000/010/0265/0277 AUTHOR: Shilov, V. I.;. Korzh, Odinokova, L. P. TITLE: Cold rolling of titanium alloy strip SOMCE: AN SSSR. Institut metallurgii. Titan I yego splavy*, no. 10, 1963. Issledovanlya titanovy*kh splavov, 265-277 TOPIC TAGS: titanium alloy, AT-3 titanium alloy, AT-4 titanium &Hoy, AT-2 titanium alloy, AT-6 titanium alloy, titanium alloy strip, titanium alloy foil, titanium alloy cold rolling, strip cold rolling, foil rolling, strip property, foil property, titanium alloy property, titanium aluminum chromium alloy, iron containing alloy, silicon containing alloy, boron containing alloy ABSTRACT: New high-strength alloys encounter an ever-larger technical application. Manufacture of strip, particularly of thin strip and foil, made of such alloys by cold roll- ing, is a complicated and laborious process not yet sufficiently studied. Therefore, in- yestigations in this direction have certain practical and theoretical Interest. The authori present results of Investigations on cold rolling of thin strip and foil of titanium alloys AT, on a four-high rolling mIU 65 x 260 x 200 provided with equipment for measuring metal Card 1A  pressure on the rolls, tension of the strip, -and velocities of the rolls and winding drums. Samples of. the titanium alloys were provided by 1. L Kornilov and V. S. Mikheyev of the Laboratrolya khtmii metallicheakikh splavov InBtituta metallurgii im. A. A. Baykova (laboratory of the Chomintry of Metallic Alloys, Institute of Metallurgy). Computations of Contact pressures were conducted. These calculationi iccounted for the elastic compressloik_ of the rolls by using expressions based on the contact stress theory of Hertz, in particular the Hitchcock formula. The alloys AT-3N, AT-3S, AT-TV, AT14N, AT'48, AT-2N, AT-6N were tested and the test results tabulated. At rolling, the strip was lubricated by machine oil SU. The high contact pressures, attaining values on the order of 450 kg/MM2, which were obtained can be explained by high initial resistance-to-deformation values of prerolled-alloys, by iheir Intensive work hardening, and by the apparently high coefficient of friction at a low speed of rolling. Because of the high contact pressures appearing at rolling of the titanium alloys, It Is recommended that the contact strength of the rolls be checked. In the given case, the surface hardness of rolls was 680 kg/mm2 of Brinell hardness, thus exhibiting a safety factor of 1. 5 in plastic contact strength. For the deter- mination of minimum strip thickness depending an the strength of the rolls and on the formability of the rolled materlal, the following expression was givem. hmin 1. 4 0 dmko Card 214 -7-  ACCESSION NR: AT4007050 where IA is the coeffictent of friction, d the diameter of the roll, m 8(l-V2)/I)-. and k the resistance of the strip to deformation. For d = 53. 6 mm, A = 0. 115, E = 2. 2, 0 kg/mn,2, V = 0. 3, and k = 160. 2 kg/mm2, a minimum thickness of 0. 145 mm was deter- mined by this formula,. comparable to 0. 156 mm obtained experimentally. For, rolle of hard inetal such as VK - 10 with E-16 x 104 kg/mm2, the minimum calculated thickness of strip is 0. 064 mm. Calculation of tensile stresses and contact pressures In the titanium sheet during cold rolling was considered by the authors and cow-pared with ex- perimental results obtained with titanium alloy AT-4S. Reduction regimes at strip cold rolling of the alloys AT-3S, AT-4N, and AT-6N, and the influence of annealing on these regimes was also considered and discussed. On the basis of results of investigations described above it was concluded that: (1) the plastic deformation of strong and high strength titanium alloys at cold rolUng of strip occurs at high specific pressures (on the order of 200-450 kg/mm2) and at specific tensions of 30-60 kg/mm2, i.e. aLl , most at 0. 3 - 0. 5 of the corresponding yield strength value; (2) titanium alloys AT combine high strength with satisfactory plastic properties, indicating a possibility of obtaining foil from these alloys; by cold rolling with tension of alloys AT-3 and AT-4, foil with a thickness of 0. 07 mm and a width of 70-80 mm was obtained; (3) after work hardening of a strip at cold rolling (with a reduction of 40-10%, depending on the type of alloy and previous working) a vacuum annealing at a temperature of 680-750C is necessary; (4) because of high specific pressuros during rolling, considerable elastic deformation occurs, card 3/4  ACCESSION NR: AT4007050 at the contact surface of the working and supporting rolls; therefore, It Is suggested that rolls of hard metal be used for titanium rolling in order to increase the strength of rolls or to obtain the thickness limit of thin foil. Orig. art. has.- 6 tables and 6 figures. ASSOCIATION: Institut metaUurgU AN SSSR (Institute of Metallurgy AN SSSR) SUBMITTED: 00 DATE ACQ: 27Deo63 ENCL- 00 SUB CODE:* MT, MM NO REP GOV: 019 OTHER*. 005 Card 4/4  ACCESSION NR: AP4042349 S/0136/64/000/007/0070/0072 P, AUTHOR: Shilov, ;V. I. TITLE: Specific pressures in cold rolling of titanium alloys SOURCE: Tsvetny*ya metally*. no. 7, 1964. 70-72 TOPIC TAGS: titanium aluminum alloy, AT3 alloy, AT4 alloy, AT6 alloy, titanium alloy cold rolling, mean specific rolling pressure# rolling pressure calculation formula, rolling pressure calculation ;ABSTRACT: Experiments have been carried out to verify a formula derived by A. I. Tselikov for calculating mean specific pressures in the cold rolling of thin foil from high-strength metals and alloys. :,A specific feature of the formula is that it takes into account the elastic properties of the metal being rolled. In these experiments, titanium AT-3, AT-4, and AT-6 alloys, containing 2.5-3.5Z Al, 3.5-5.OZ.Al, 5.0-6.5Z Al, respectively, and each containing, 0.4-0.9% Cr, 0.25-0.60% Fe. 0.25-0.60% Si.and 0.01Z B, in the form of 50- or 75 mm-wide foil varying in thickness from 0.165 to 0.360 mm, were subjected to one-pass rolling under a mean specific Card 12  ACCESSION NR: AP4042349 pressure calculated from the A. 1. Tselikov as well as the conven- (Hitchcock) formulas. The experimental data showed that the taking into account of the elastic properties of the material being ;rolled resulted in a significantly lower calculated value of the omean specific pressure required to produce an identical thickness ,reduction. The pressure difference varied from 36 to 41Z foir-AT-3 ~alloy, from 34 to 39Z for AT-4 alloy, and from 32 to 38% for AT-6 :alloy, increasing generally wLth the greater initial thickness of them :foil. Orig. art. has: I figure, 2 tables, and I formula. :ASSOCIATION: none iSUBMITTED: 00 ATD PRESS: 3070 ENCL: 00 j NO REF SOV: 010 ~SUB CODE: MM, 1E OTHERt 000 :Card 2  L 08323-67 EWT(m)/EWP(t)/ET1/EWP(k) IJP(c) JD/HW ACC NR: AR6 33785 0' CODE: UR/0058/66/000/007/EO50/EO50 AUTHOR: Korzh, E. D.; Korzh V, P, TITLE: Determination of heat volume released during pkfstic of a medium with nonlinear strengthening SOURCE: Ref, zh* FIzika, Abs, 7E373 REF SOURCE: Uch. zap. Urallskogo un-ta. Ser, fiz., vYp. 1. 1965* 151- 154 TOPIC TAGS: plastic deformation, heat, strengthening ABSTRACT: The diagram of a plane deformation Is used to describe the compression of a sample by die blocks of different widths. The equatio of the condition of the deformed medium Is postulated in the form of 6=6 #+Ecas in which 6 is the stress, c is the deformation, a is the in- dicator, E is the strengthening modulus, and 6 is the yield point, The quantitative correlation between the deformation energy transformed into heat, and the total deformation energy, is derived by a standard method.-Vs N. [Translation of abstract] SUB CODE: 20/ 3 deforma 1/1 not  TARNOVSKIY, I.Ya.; KORZH, V.P. Investigating asymmetrical deformation by means of the variation principle of mechanics. Izv. vys. ucheb. zav.; chern. met. 8 no.5: 65-69 165. (MIRA 18:5) 1. Uraltakiy politekhnicheakiy institut. 4  KORZIII Ye.G. [Forzh, IF,.H.j Siath Scientific Pharmaceutical Congress of the Folish People's Republic. Farmatsev. zhur. 18 no.ItU-85 163. OURA 17: 10) 1. Zamestitelt nachallnika Glavnogo aptechnogo upravleniya Ministerstva zdravooklirananiya UkrSSR.  LUKESH [lakeml, R.; DUM, V.; SEDLAKOVAP 0.; -IMPIK~nIt J. Effect of Grignard reagents on amide group. Part 31t Reaction of K- mothyleaprolactam on paraffin Grignard reagents. Coll Cs Cbem 26 no-4:3-105-1112 Ap 161. - 1. Kafedra organicheakoy khimii, Khimiko-takhnologichookiy institut, Fraga. (Amide group) (Grignard reagents)  YELMMIGH, B.; EaRZaAMOVSKIY, Ao Strengthen bank connectioAs with radowa economic councils. Den.1 kred* 18 noo6:4348 Je 160. OIIBA 13s6) 1. PradesdAtell Onskov ~ovwLrkhox& (for Telenevich). 2. NLcW'nik fluansovogo otd*la MarIkovskago sovnarkhosa (for Korxhanovskly)o (Omsk Province-4konioniq policy) (Khar1mv Province-Sconomic policy) (Uuka &ad buking)  KORZHANOVSKIY. A. Ties of the regional economic council with financial and bwIk organs have improved. FIn.SSSR 21 no.5:58-61 Yq 160. (MIRA 13:7) 1. Rachallnik finansovogootdola KharIkov Oko o sovnarkhoza. (Kharkoy District--Zconomic Polir-YI OPinance)  KMMMNCTS&TT,A. 1. Utilization of working capital in the automotive and tractor industry. Avt. trakt. prom. no.5:1-2 NY'55- (KLRA 8:8) 1. Kinisterstvo aftondbillnogo, traktornogo i sellskokhozyav- stvannogo mashinostroyenlya. (Automobile Industry-Finance)  T T sluzhby 3~BTYATKIN,_V.V.,.gornyy inshener; KORZHAVIN, A.Nq, mayor maditsinakoy. Using divers for theclantrol of mine flooding. Tor. zhur. no.8.-58- 63 Ag '57- (Nine rescue work) (Kine water) (Km 10:91  ACC N" ARGO33093 SOURCE CODE: UR/0269/66/000/007/0045/0045 AUTHOR: Borovik, V. N. ; Korzhavin, A. N. Peterova, N. G. TITLE: Observations of a radiation source associated with a rapidly developing group of sunspots SOURCE: Ref. zh. Astronomiya, Abe. 7.51.314 REFSOURCE: Solnechnyyedannyye, no. 10, 1965, 67-71 TOPICTAGS: sunspot, radiation source, photosphere, sunspotgroup, brightness temperature, kinetic temperature ABSTRACT: On 18-19 March 1965, the size of the group of sunspots No. 23 [according to the numeration used In the bulletin "Solnechnyye dannyye~ (Solar data)], which was in a stag-e of d'ecay, suddenly increased sixfold. On 19 March,. the flux density from a source connected with this group increased by approximately as many times. The source was observed with the large Pulkovo 'radio telescope in the 3. 2- and 4. 5-cm wavelengths (telescope resolving power of ~ -41'. and ~Ii.3 respectively). Source dimensions, which were constant during the entire period of, the observation, were at the 3. 2-cm wavelength and 0.3, -at the 4. 5-cm Card 1/2 UDC: 523.164.32  ACC NR- AR6033093 wavelength. On 19 March 1965 the brightness temperature of the source calculated, assuming its circular symmetry was 120, OOOK at the 3. 2-cm. wavelength and 170, OOOK at 4. 5-cm wavelength. The kinetic temperature, calculated on the basis of these data, was 200, OOOK. On 19 March', the optical thickness of the radiating region was 0. 9 at the 3. 2-cm wavelength and 1. 8 at the .4. 5-cm wavelength. The emission measure was '110,0 r 6,5'. ion.. . On 19 March 1965 as compared with 18 March, the kinetic temperature of the source increased fourfold, and the emis- sion measure increased eightfold. Before and after 19 March, the effective center of source radiation was above the photosphere at a'distance of '40*:~D,01) RE) at the 3. 2-cm wavelength, and RO at the 4.5-cm wavelength. No close connection was observed between the variation in the area of the optical sunspot group and the flux radiation from the corresponding radio source; thi's is in accord with results obtained earlier by the authors for the same wavelengths. The bibliography has 5 titles. N. Petrdva [Translation of abstract) [DWI SUB CODE: 03/ I Card 212  ,_KORZHAVIN, A.N,_ Radio4mographic study of the stroke and minute blood volume in man uuring the respiration of gas mixtures with a high oxygen and carbon diozide content. Trudy LS%1I 53:273-280 159. (MIRA 13:10) 1. Kafedra, rentgenologii a meditsinskoy radiologiyey Leningrad- skogo sanitarno-gigiyenicheskogo maditainskogo instituta (zav, kafedroy . prof. B.M. Shtern). (BLOOD-CIRCULATION) (CARBON DIOXIDE-PHYSIOLOGICAL EFFECT) .(OXYGEN-PInMIOLOGICAL EFFECT)  ACC N" AR7000897 SOURCE CODE: UR/0058/66/000/009/HO431HO43 AUTHOR: Borovik, V. N. .- Peterova, N. G.; Korzhavin, A. -N. TITLE : Observations of a radio source related to a group of rapidly developing sunspots SOURCE: Ref. zh. Fizika, Abs. 9Zh3l5 REF SOURCE: Solnechnyye.dannyye, no. 10, 1965, 67-71 TOPIC TAGS: sunspot, solar r4dio emission, radio source, radio emission, =D&W I r1i k. .-CtR 0 wr .3 IC I 11PI if ief9t),,i rtok) IrLp-res.; ABSTRACT: It is reported that in March 1965 the sunspot group No. 23 (numbered according to the bulletin "Solnechnyye dannyye"-" Solar. Data") which was under- going disintegration, suddenly increased six-fold in area between March 18 and 19. On March 19, 1965 the flux of radio emission from the source associated with the group and observed simultaneously on two wavelengths, 3. 2 and 4. 5 cm, through the Great Pulkovo radio telescope (the resolving oiower of the telescope .being il,i 21,3 -respectively), was alBo seeif to increase by almost as 1/2  NRt AR7000897 much. The dimensions of the source, constant throughout the entire period of observation, were 11.5 on the 3. 2-cm wave, and 2',3 on the 4.5-cm wave. On March 19, 1965 the brightness temperature of the source, assuming its circular outline to be symmetrical was computed to be 120, OOOK on the 3. 2-cm wavelength and 170, OOOK on the 4. 5-cm wavelength. The kinetic temperature of the source, computed on the basis of these data, was 200, OOOK. In comparison with March 18, on March 19, 1965 the kinetic temperature of the source increased four-fold, and the amount of emission eight-fold. - The effective center of the sourcels radio emission before and after March 19 was above the photosphere at a distance of (0. 04 � 0. 01). Ro on the 3. 2-cm wavelength and (0. 05 � 0. 01) RE) on the 4.5-cm wavelength. N~ close correlatio n was observed between changes in th area of the optical group of sunspots and the flux of radiation from a radio source corresponding to it, which agrees with results obtained earlier by the authors on the same wavelengths. [Translation of abstract) [SP) SUB CODE: 03/ Card 2 2  FOR7.11AVIIIII, A.11.), kand. me-id. nauk I., I ~ Pro,,irling for rest ar!...l rehx:t~ion or brew. Sudr,3Lroen;e '-0 no.10; 25-28 0 764. (m.-Lrul. 117:12)  130--8-2-9/21 AUTHOR: .TITIE: ixig6-f_m_o_u1a`�-_-_3'fa New Design (I-71ozhnitsy novoy konstruktsii) PERIODICAL: Metallurg, 1958 9Nr 2, pp 18 - 19 (USSR) 11 .-ABSTRACT: The author describes the design and performance of a new design of ingot mould at the imeni Dzherzhinskogo (imeni Dzerzhinskiy) Works. The new design (Fig.1b) differs from the normal (Fig.la) in its taper, bottom shape and corner profile (Fig.2). The tapers of the new design are 2.1 and 4.6% less along the major and minor axes, respectively, and the top 300 mm has the walls parallel; the corners are formed by three arcs, the central one having its centre outside the ingot- mould(ross-section, the others inside. Seven of the ingot moulds were tested with tube steel melted in basic-roof 75-ton open-hearth furnaces, the,metal being bottom poured. The ingots were rolled into 180-mm diameter tube billets which were inspected for flaws: rejects (cracks, tears, macrostructure) amounted to 2.10116 compared with 5.0 and 3.9 for stools before and after, respectively, those with the new ingot moulds. Temperature measurements of ingot-mould walls showed that the temperature was more evenly distributed in the new than in the old design; the ingot mould life was the same, failure of the new-design Card,/$nes occurring through crazing in the lower third; ingots I  Ingot Moulds of a New Design 130-58-2-9/21 were less liable to cracking. There are 3 figures. ' ASSOCIATION: Zavod im. Dzerzhinskogo (imeni Dzherzhinskiy Works) AVAILABLE: Library of Congress 1. Steel ingot molds 2. Steel-Production  KORZEEAVIN. B.D., otv.red.; HUMMMANOV, N.V., sk-ademik. red.; MUMAZAROV, "97M.".'red.; ZAKIROV. K.Z., akedemiki red.; RYZHOV, S.N., akaidemik, red.; MEWORKO, VoTeeg akademik, red.; DADABAYEV, A.D., ak~3demikq red.; IIAMIMOV, A*Aqq akademik, red.; DZHALILOV, Kh.K., kandookonomo nauk, redo; BONDARZNKO, No, red.; BAMIYAROV, A., takhn.red. Us= management system in recently reclaimed areas of the GolodneYa gitappe; measuran for 91oVaInIng the maximm output of farm products per 100 hectares of cropland with a minimum expenditure of labor and other means] Bletema vedenila sellakogo khoziaistva na zemliakh novogo onvoenila Golodnoi stepi; maropriiatiia po maksimallnoma vykhodu seltakokhosiaistvennykh produktov na 100 ga zemellnykh ugodii pri naimentshikh zatratakh truda i aredstv. Tashkent, Goa. lad-vo Usbekskol SUR, 1959~ 158 p. (mru 14:2) 1, Uzbeksloya akadaudya uqj'vkgkhQjypyGtvqnnykh Avrqk, 2, Chleny- k6map6ndonty AN Usbakskoy SSR (for Unhaviln, Teramenko). 3. AN Usbekskoy SSR (for Mukhamedshanov. ZakIrov)..4,tUsbekMjMyv akedemlys sellskokhosyaystvennykh neuk (for Mukhamefthanov. Sakirove Ryzhov, Teremunkog Dadabayev, Rakhimov). 3. Kinistr selskolm kho- syaystva UsSSR (for Khanazerov). 6. Chlen-korrespondent Vatsoyuznoy akedemii seltakokhozyaystvannykh neuk Imeni V.I.Lenina (for Ryzhov). 7. Direktor institute ekonomiki Usbekskoy skademii sellskokho- syaystvannykh nauk (for Dshalilov). (Golodneya Steppe--Agriculture)  KOVALRY, Ye.I., kandidat meditainskikh naulc; KORZH&VIN B.V., kandilat maditainakikh nauk (Koakva) :~ Blectroophygoographic amminations in andarteritto obliterans. Trach.delo no.2:121-124 7 156. (KUL 9 - 7) (AMPUM-DIUASM) (MYGHOGRM)  ACCESSION NR: AR5019352 UTR/0124,/C,5/000/007/BO3,1/1,"~034 SOURCE- R(A. Mi. Meldianilm, Abs. 711245 TITLE: Approximate analytical solution of some problems in gas dynamics CITED SOURCE : Dokl. PZY StbiM 1964. Tomsk, -n-t 1964 3 17-318 iTOPIC TAGS: gas dynamics, nonlinear equation analysis, approximate solution 'FRA~MATION: The author analyzed the nonlinear equation y" f(,v Y) y'), with two of U10 y'(0), y(xl), and yl(xl) previously aasl&med. He lllustr,'ites a method of forniu- latang an'ap~jroxilnatc solution- ibi'sect6r-[0,xjj in the forin ofa 2m power polynomial in I X, which provides an ni-order tangency wRI) the accurate solution at end points 1), xi. A formula is given for tho remainder of the torin. All formulations observe the condition tltat! near equation bi question exists for secto an analytic Golution of the nonli r CO, x1j, It is noted that the aufAor employed the cited procedure to obtain an approximate analytical solu-;' -~---A- Card -1/2---   SOURCE COM UR/01 AUTHORS: -Korzhavin, G. IT.; Khrapavitskiy, V. G. TITLE: Plow of a supersonic gnn stream over a symmetric profile SOURCE: Ref. zh. Mekhanikap Aba. 9B254 REF SOURCE., Dokl Tomak, TomBkiy- un-tp 19;4F 318-319 TOPIC TAGS% gas flow, supersonic flow, shock wavop differential equationt approximation mothod ABSTRACT: The shape of the detached shock wave and the flow parameters behind the shock wave are determined for the flTw over a given symmetric profile in a supersonic invigold gas stream. A second order nonlinear differential equation is obtained for, the stream function. The solution of the equation is obtained in series form. The boundary conditions are given on the bodyp on the axis of symmetry, and on the shock wavet whose equation is known., The shock standoff distance from the body is determined. A. F. Kryuchin eranslation of abstrao!7 SO CODE t 20 Card 1.  S/124/61/000/012/020/036 D237/D304 AUTHOR: Korzhavin, G. N. TITLE: Longitudinal flow of an incompressible fluid around a system of two solids of revolution PERIODICAL: Referativnyy zhurnal Mekhanika, no. 12, 19619 52, abstract 12B333 ~Dokl. Nauchn, konferentaii po teor. i prikl. vopr. matem. i mekhan., Tomsk, Tomskiy un-t9 1960, 96-97) TEXT., The problem considered is that of longitudinal flow of an incompressible fluid around a solid of revolution near the wall. This is equivalent to the longitudinal flow around the system of two solids of revolution. The problem is solved by distributing the critical points on the chords of those two so- lids of revolution. The velocity potential is given as Q x + An Fn n + 2 'Bnpn Qn (T) Card 1/2  11 x0!!= X.N., kandidat tskbnicheakikh nauk, doteent. Wficient type of bridge support under ice flow conditions of Siberian rivers. Trudy MIZHT no-7:15-34 149. (MLRL 9.920) (Railroad bridges) .0 ~.  KORZELAVIN, K.H., professor, doktor tekhnichoskikh nauk 11-~~~~-- Iffect of the speed of deformation on the magnitude of the strength limit of river Igo subjected to monoaxial compression. Trudy NrrZHT no.11:205-216 055. (MA 9:10) (Ice on rivers. lakes, etc.) (Deformation@ (Mechanics))  XMHAVIN' K.T. low method for determining the actual pressure of lee on the abutments of a bridge; 1w. Yost. filo' AN 830 no;lt88-94 157, (KVU. 11t4) 1. Zapadno-ftbirddy filial All SSW. (lee on vivo", Iskes, etcJ (Bridges-7ouWL&tions and Plors)  XORZHAVIN, K.M., doktor takhn. nauk Now method of determlidns the actual pressure of ice on bridge abutments. Trudy Trausp.-energ. inst. Zap.-Sib. fil. AN SSSR n0-7:59-83 158. (14IRA 13:2) (Ice on rivers, lakes. etcJ (*idges--7oundations and piers)  IMHAYIN, K.N.,_daktor tekhn. nauk Mtperiment In determining the actual pressure of ice. on bridge abutments. TrW~v.Tranep.-*nerg, inst. Zap.-Sib. fil. AN SSSR. no.7:83-91 158. (MIRA 13:2) (Ice on rivers, lakes, etc.) (Bridgeis-Foundations and piers)  XQRz1w'(1N,k-1-H.#doktor tekhn.nauk, prof. Determining actual Joe pressure on bridge piers* Trauspestrol. 8 no6l2:23-24 1) 158* (MA 12:1) (Ice on rivers, lakes, etc.) (Bridges-Fowdatione and piers)  KORZHAVIN, K.N. Action of ice on engineering structures in Siberia. Izv. Sib. otd. AN SSSR no.10:32--42 161. OLM 14:12) 1. Trant3portno-energeticheskiy institut Sibirskogo otdeleniya AN SSSR, Novosibirsk'*. (Siberia-Ice on rivers.,,lakcs, ate.) (Hydraulic etructures)  KMMAVIN_,_K.N., doktor tekhn.naukq prof. Action of ice on the piers of bridges and Irldraulic structures. Trudy Transp.-energinst.Zap.,-Sib.fil.,UI SWR no-5:3-13 155. .1 (MILi 15:5) (Ice on rivers,, lakes, etc.) (Hydraulic structures)  KCRZHAVIN K.N. doktor tekhr6nauk., prof. Effect of the angle of inclination of the ice-breaking edge of a bridge pier on the intensity of ice pressure. Trudy Transp.-- energ.inst.Zap~--Sib,fiLAN SSSR noo5sl5-1+1 055. (MM 15W (Ice on rivers, lakes, etc.) (Bridges-Foundations and piers)  KORZHAVIN Konstantin Nikolayevich; SHALINA, L.V., red.; LOKSHINA, (Effect of ice on engineering structures]Vozdeistvie '11da na inzhenernye sooruzheniia. Novosibirsk, Izd-vo Sibirskogo otd-niia AN SSSR, 1962. 202 p. (MIRA 16:4) (Ice on rivers, lakes, stp.) (Hydraulic structures)  KORZHAVIN, K,N. Winter regime of rivercou-sr-g of -,,Yid problemc of its study. Trudy Tvan--p.-onurg. in5t. Sib. otd. AN SSSR rlo-15: 3-10 IU- (MIRA 18;6)  KORZHAVIN. X.N. Some problems of the action of Ice on structures of great length. Trudy Transpe-energ. inst. Sib. otd. AN SSSR no.15:60-66 16.(,. (KrFLA 18 -.6)  L 05889-67 EWT(1) GW ACC-N" rN) SOURCE CODE: UR/0398/66/000/006/BO04/13004 AR6032256 AUTHOR: Korzhavin, K. N* TIT \r1 LE: Calculation of the dynamic ice loads caused by jammed ice masses SOURCE: Ref. zh. Vodnyy transport, Abs. 6B22 REF SOURCE: Sb. Vozdeystviye 11da na sooruzh. i raschet otverstiy malykh mostov. NovosibiL'sk, 1966, 3-10 TOPIC TAGS: ice, climate, ice pressure, ice movement ABSTRACT: Evaluation of the interaction between ice masses and structures were studied. A relationship P -iwmD is assumed for evaluating the possible maximum ice pressure; w is the projection of the contact area of the support and the ice block on the verticals m is the coefficient of the support shape; and D is the specific pressure per 1 square meter of contact area of support and ice. For the vertical support (k is the coefficient of leakage of the support D- SxR C ~Vu Contact and the ice mas's;'--v'is the velocity of the movement of the ice mass; 2. 5 is the distortion coefficient;, and Rrc is the resistance limit of the ice mass to crushing) If the effect of the velocity of the movement of the ice masses is not Card 1/2 ' UDC: 626. 01  L 05889-67 ACC NR- AR6032256 considered, the maximum force for the case of supports with a vertical face can be calculated by the formula P-IAbohmKRrc (A is the climatic coefficient; bo is the width of the support in the cross section). The case of an inclined plane structure is examined, in which the vertical component of the reaction of the struc- ture support can lead to crushing of the ice mass from bending or from shearing. The magnitudes of the calculation parameters are given for the practical application of the formulas suggested: the limits of ice strength during compression., bending, and shearing; the coefficients of the support shape during compression and bending; contact closeness; and a climatic coefficient. Orig. art. has: 1 figure, 2 tables, and 17 reference items. [Translation of abstract] SUB CODE: 13 kh Card 2/2  FRENKELI., S.YA.o SHALTfWs L.G.j NDFMVINs L.N., PRIrK0V, L.K. Z--~ Use of active media for shaping and strength*ning synthetic fibers. Report presented at the 13th Conference on high-molecular compounds Moscow.. 8-3.1 Oct 62  ACCESSION NR: AP4043767 S/0080/64/037/008/1802/1807 AUTHOR: Py*rkov, L.M.; Korzhavin, L.N.; Sorokin, A.Ya.; Frenkel', S.Ya. TITLE- Preparation of concentrated solutions and the removal of air in an atmosphere of solvent vapors SOURCE: Zhurnal prikladnoy khimii, v. 37,-no. 8, 1964, 1802-1807 TOPIC TAGS: solvent vapor, concentrated solution, polyvinyl alcohol, synthetic fiber, spinning, polyacrilonitrile, dimethylformamide, polymer :.ABSTRACT: The authors describe a simple laboratory method for the removal of air !:from spinning solutions of polyvinyl alcohol (PVS) and polyacrilonitrile (PAN). ' !,This method can be easily adapted for other systems and technological conditions. Both solutions were prepared in a laboratory device. The initial components of the isolution were introduced into a container which was placed inside a larger container filled with solvent and equipped with an electric heating element. The solution container'was covered by an isolating glass cover. The cover had one opening for the introduction of nitrogen and another for a thermometer. The glass cover has a bottle neck which contains a bearing and a mixer with a waterproof seal. A nitrogen flux is injected during a period of 5-10 minutes. Then the solvent is poured into ,bard 1/2  L 23328-66 EWT(m)/EWP(j)/T RM I ACC NR. 06jkQ62 SOURC9 CODES URV/01 270102U). AUTRORS-. _Ginzburgj, B. M.1 Korsha:vin, L. NO; Frenkellp So Yao; Layus!p Le Ast Adrova. N. A. 0110: Institute of High-Holecular P21nersl AN SSSR (Institut vysokomolakulyarnykh soyedineniy AN SSSR) T1TLKi Crystallinity of poly-2,21-actamethylqno!.$,51-dibenzimidazole SOURCEi Vysokomolokulyarnyyo soyedineniya, v. 0, no. 2, 1966, 278-201 TOM TAGSt x ray diffraction study, crystalline polymer/ URS-501 x-ray difftaction apparatus., GUIR-3 goniometer 4 0 T% I 10 ABSTRACT. X-ray diffraction study of freshly, prepared fibers and filmJ of poly-29211- octamothylone-5,51 -dibenzimidazole (1) disclosed a cry:A-alline structure of high order for that polymer, in spite of earlier observations to the contrary by the authors as well as by other workers (A. A. Izyneyevt V. V. Kurashevq V. V. Korshaks T. M. Frunze, and No Sh. Aldarova. Izv. AN SSSR, Otd. khimo n,# 19639 2019; L. As Layus, 14. 1. Bessonov, No A. Adrovas and M. He Kotono Plasto massy, 1965, No. 8, A). The x-ray diffraction study was performed using'instrument UW57.$01 with goniomater GUR-3 adjusted for measurements at small angles. It was established that a 3-hr thermal treatment at 160C results in alaost.total amorphization of the stracture, as can be seen in Fig# 1. However, it also leads to a two-fold rise of tenacity and a UDCt 678.W~.. ~+6 %t6__  L 23328-66 ACC NRt Ap6oo6982 1, JR11883/1300 19. ze 40 0 F,. min five-fold rise in the elasticity modulus. Relaxation mechanisms and structural processes related to the mobility of the heterocyclic sections of the Chair-L Of I, as well as the direct Influence of formic acid, are discussed as probable causes Of the crystallinity in freshly forned 1. The authors express their gratitude to Too i Pokrovskiy and K, K. KalnYn'sh for taking the IR spectra and to A. I. Slutsker for -evaluat of tffe- rOMdt3a Orige art, hass 8 figures and I formilao Fig. 1. Low angle x-ray diffraction on fibers (meridional direction)i 1 - freshly formed; 2 - treated at 160C for 3 hours*  HIMEAVIN, Oleg Arkad!ygy -ii,, assiBtent ,. ,U Magnetic amplifier transducer with d.c. excitation current and a semigraphical method for its design. Izv. vys. ucheb. zav.; elektromekh. 8 no.102ID42-1149 165. (MIM 18: U) 1, Kafedra elaktroimeritallnoy tekhniki Kuybyahevskogo politekhnichoskogo instituta. Submitted September 17, 1964.  KORZHAVIN. O.A. Investigating an inductive converter with a laminated magnetic cir- cuit. Izv.vus.ucheb.zav.; prib. 6,no.3:10-18 163. (14IRA 16:9) 1. Kuybyshevskiy politekhnicheskiy inatitut, Kuybys~eva. Rekomendo- vana kafedroy elektroizmeritellnoy tekhniki,  L ')Z467-66 ~4T(d)jMrQQ(k)-2 11-4 ACC NRs AP6009140 SOURCE C"ODE: UR R-445/0060/61WO 114 AUTHOR: Korzhavin.: 0, A., ORG: none TITLE: Magnetic -amplifier sensorwith constant magnetizing current and grapho- analytical method of its design SOURCE:IVUZ. Elektromekhanika, no. 10, 1965, 1142-1149 TOPIC TAGS: measuring sensort, measuring transducer, primary detector ABSTRACT: A combination non.electric-qutntity-rneasuring sensor and magnetic amplifier is described In which, (seie figure) the magnetic amplifier Is. controlled by means of an armature A--- 3 f6 14 V" (electromagnet or permanent 1* magnet) whose linear movement varies the magnetization of the 'he common magnetic system. 1 latter comprises two parallel stack. !7~ I and Z with airgaps In their middle cores; movable core 3 is pivoted in, Magnetic-amplifier sensor Card 1/2 UDC: 6Z1.313.334 Car  A N R, XP6002169 S6UR E CODE: UR/0146/65/008/006/002510032 i.,'k UT HO R: Kulikovskly.'L. F. ORG: Kuybysh ev Polytechnic Institti te (Kuybyshevskiy polite khniche skiy institu t) TITLE: Investigation of -a magnetic -amplifier-type permanent-magnet linear- displacement sensor and'ite errors ~ SOURCE: IVUZ. Priborostroyeniye,,v. 8, no. 6, 25-32 TOPIC TAGS: displacement sensor,. strain gauge ABSTRACT: The results of teats are reported of a now linear-diFiPlacement sensor which combines, in a common magnetic: system-, the features of an inductive sensor and a This combination pe magnetic amplifier. rmits obtaining an output power sufficient for operating., a recorder. In its initial position, permanent magnet III overlaps one-half of both O-shaped cores I and H (see figure, left). Hence, the constant fluxes in both cores (due to tWs magnedi Magnetic -amplif ier-type are equal, and their combined effect on w, and linear -displacement sensor: w. is zero. When the permanont magnet is magnetic system (left) and circuit (right) displaced, its overlaps change, and an a-c emf I Card  L 1854o-66 ACC NRx AP60OZ169 ,:xppears across the windings. The sensor is held particularly suitable for applica- tion where displacement of a few mm are involved. A laboratory model exhibited errors of 1, 5 and Z. 516 for supply-voltage variations of * 5-1014 and + 10-154,4, respectively. Still better results were obtained with the sensor operated as 2L voltage element and when the ferroresonance phenomenon was utilized. The temperature error was 2% per IOC within - 15 + 55C; it can be considerably reduced by us;ing a therniistor. - Orig. art. has: 4 figures, 5 formulas, and I table. SUB CODE: 13, 09 SUBM DATE: 290ct64 ORIG REF: 008  ~ORZHAVIN, Oleg Arkadlyevich, assistant Magnetic =plifier pidkup davio-aa of linear d1splacomentfl, 7 1. Kafedra elektiroizmeritellnoy tqkhniki Kuybysheirskago politekhnichaskogo illatituta.  CKORZHAVIN. 8.S., red.; KUZNSTSOTA. M.I., red. izd-va; KATYBYEVA, A.Ye., red. (Instruotion 24-57 for 06eking kerosene pumpal Instruktaiis 24-P po poverke closetorov kerceina. Izcl. ofitsiallnos. Mo- skva, 1957. 7 P. (miRA 14:5) 1. Russia(1923- U.S.S.R.) Komitat standertoy, mer i ismri- tal'iiykh priborov. (Kerosene) (Dispensing apparatus)  (XORZHAVIN, S.S., red. [Instructions 87-33 for . che.oklng qurveyors' measuring tapes] InstruktallA j)o'poierkie semlsiorufth rulatok. Izd. ofltsiallnoo. Kookva, 1937. 7 p. WRA 14:5) l.-Russla(1923- U,8.8,R,)Komltet standartov, mar i ismeri- tellnykh priborow. (Measuring tapes--Testing)  KCRZHAVIN S ad.; KUZNXTSOVA, K.I., red.izd-va; KATV=VA, A.Ye., !!~! ~tekhn. bred! (Instructions No.89-55 for chocking metal measuring tape] Instruktaiia 89-55 po poverks ismaritellnykh metallicheakikh rdlatok. Ird.ofitsiallnoe. Koakva. 1959. 18 p. (MIRA 13:11) 1. Russia (1923- U.S.S.R.) Komitat standartov, mar L izmari- tel'nykh priborov. (Measuring tapes--Testing)  KOHZjjA KUMTSOVA, K.I., red.izd-va; KATYEMA, A*yO-# tekhn.red. [specification 23-57 for the control of gasoline Pumps] Instrak- teiia 23-37 Po poverke benzorazdatochnykh kolonok. lzd.ofitsiallnoe. Moskva, 1959. 19 p. (MMA 13:8) 1. Russia (1923- U.S.S.R.) Komitet standartov, mar i izmaritell- nykh priborov. (Go w-line) (Flow motors)  prof-, KUZUB, G.Ya., kand. tekhn. nauk, dots.;_,KQj~ZHASJ1 red. (Manual on training hydrometric practice for students of the Novosibirsk institute of Engineers of Railroad Trans- portation) Rukoyodstvo po uchebnoi gidrometricheskoi praktike dlia studentov EMU. Novosibirsk, Vovosibir- skii in-t inzhenerov zhel-dor. transp., 1963. 30 p. (MIRA 17:5)  xaRZHAVIM, T.I., NOSOVA, Ye., redaktor; MINETIO.H. I., tokhalchookly Cluperisace In introducing business methods In shop* of a machine building Plant] Opyt vzodrealls, khosialotysmoge rascheta v tooftakh mashinestreltellsep oxweda, Kiev, Gov. Isdove tokha. lIt-j7 UM, 1952. 38 P. (Irowjidrlos) (KM 94-5) Card 1/1  KORZHAYEVt S. A. Hydrodynamics Technological calculation of hydrocyclones, by N. 1. Malakhovskiy. Reviewed by S. A. Korzhayev, Ugoll, No. 1, 1952. 9. Monthly List of Russian Accessions, Library of Congress, March -195A Uncl. 2  RORZHAYLFV, S.A., inzhener. "Moving soil by means of pressure and preasurleas flows.' A.I.Ivanoy. Reviewed by S~i.Korzhqsv. Gidr.stroi. 22 no.5:46-47 My 153. (XLPA 6:6) (ITanov, A.Z.) (Ikrthwork)  KORZWEV, 3. A. KORZHAYEV, S. A. -"Investigation of Hydraulic Transport in Coal Mines." Min Coal Industry USSR. Moscow, 1955. (Dissertation for the Degree of Candidate in Technical Sciences.) So.: Knizhnaya ILitopis', No. 7, 19569  KORMATRY, S.A., inzhenere Hydraulic handling of fining materiala. Ugoll 31 no.3:11-15 Mr '56. (MIRA 9:7) I.Tsesoyuznyy Ugolon" Institat. (Mine filling)