SCIENTIFIC ABSTRACT UVAROV, O.F. - UVAROV, V.B.

SOV191-59-8--r,128 18(5) AUT11ORt Uvarov - a,. F. 'jDIginear. TITLEt The Application of Welded Flanges for Pipelines PIMIODICAL: 'Energetik, 1059, Nr 8, pp 11-12 (USSR) ADSTnACT- The author suggests a method of manufacturing irelded flanges in case steel plates of the required thickness are not cvailable. Ile recommends cutting two flange blanics from thinner plates. These blanks are welded to the tube end a V-grr)ove about 6 mm deep is cut by a lathe in the center between the two sections, as shown in fig.l. The two sections are then welded in the area of the groove. The author explains also the welding of collar flanges using steel pl,-%tes and steel bars. Only small flanges may be produced by this method, since, without additional macbin- ing on a lathey -their diameter is limited by the size of the drill which must be used for this purpose. Such a flange is shown in fig.2. The author states that flanges produced by this method are in operation for several years without showing any defects. Card 1/2 A note from the editor says that this method should be used only  SOY/91-59-8-6/28 The Application of Welded Flangeti for Pipelines in urgent cases when no other materinI is available. There are 2 diagrams. Card 2/2  UVAROV. O.F.. inzhe Welded pipe joints used abroad. Mont. i spets. rab. v stroi. 24 no.5:28-31 Yv 162. (Pipe-Welding) ~'MA 15:5)  M--- - UVAIIOV# O.F., insh. Vessels and appaa-atus lined vith stainless materialal digest of foreign literature. Lhim. i neft. mashinostr. ne.lt"-46 J1 164. (MMA M12)  UVAItOV, O.F. (Ivanovo) Use in the United States of methods for calculating underground metal pipelines for external stress resistance. Stroi. truboprov. 10 no.8:16-19 Ag 165. (MIRA. 18:1-1)  Tsr E--rpk,-ttTjrn COFFMC I YNT9 OF TUE THE ikk bt~x.. i*, rv, nvvrvucc - o- xr El:uw -sullotonk, -7 -%~4 lsaoir-cs O'b roo x .1740 NdPafA!ld-t cOaff determined for eqjflibri-m avapofation atc~oj IA Ln~ rwM;f L4 A7,  "Rectification Collimn for Obtaining Water That Contains 'I-s%.vy Oxygen," by 0. V. Uvarov, V. A. Sokol'ckiy, and N. M. Zhavo- ronkov, scien-fific--Resea~ch--P-h-y-s-i-co--cFe-m=caI InstitutT-Tm-eM T-. a. Karpov, Khimicheskwja Promyshleanost' No 7, Sep 56, pp 4o4-405 A procedure and equipment with the use of which Vater containing 24.5% Of %10 is obtained are described. The imporIF ce of developing procedures ,for he concentration of deuterium, 0118, and N in pointed out. S u1VI  ,SUBJECT USSR / PHYSICS VGARD 1 / 2 PA - 1520 AUTHOR SEVRJUGOVA,N.Nit *UVAROV,O.V., ZAVORONIKOV,N.M. TITLE The Determinat on or-a-e--g-eparation Coefficients of Boron Isotopes at equilibrium Evaporation of BC1 3 PERIODICAL Atomnaja Energija, 1, fasc.4, 113-116 (1956 Issued: 19-10-1956- The present work describes the exact determination of the separation coeffi- cient a of the system B 11 Cl 3 -B10 C13and of its temperature dependence by the method of RALEIGH'S distillation. With this method a large quantity of the sub- stance to be investigated is evaporated with the exception of a small remainder, and a is then determined from the modification of isotopic conditions at the be- ginning and at the end of the process of distillation. Distillation took place in two stages. The determination of the separation coefficient is possible if the following conditions are satisfied: The composition of the liquid must always remain unchanged in the entire volume. Evaporation must be slow without any violent boiling. The walls, particularly above the liquid, must always be a little warmer than the liquid. The first stage of distillation extends from 2000-3000 g to 50-70 g. The distilliAg device is described on the basis of a drawing. After this evaporation the metal balloon was removed and replaced by the evaporator for the second stage. Also the apparatus for the second stage of distillation is illustrated by a drawing. This second distillation was carried out under the same conditions as  Atomnaja Energija, L, fasc. 4, 113-116 (1956) CARD 2 / 2 PA - 1520 the first, and 0,5 to 1,0 1; of the liquid was left over in the evaporator. This remainder of liquid was carefully and exactly weighed. The samples were filled into glass ampules which were fitted to the evi-porator. On the occasion of the introduction of the evapointor into the DEWAR vessel with liquid air, the air was pumped out. The evaporator was then heated to room temperature and in the ampule about 0,3 g BC1 3 were condensed. Also a second ampule was filled in the same manner. At 300 revolutions performed by the vanewheol-like mixing device a attains its maximum value. By means of the same apparatus the influence exercised by the evaporation velo- city on the separation coefficient of B 10 Cl.-B11 Cl was investigated. In the in- 3 3/cm2 terval of evaporation velocities of from 1,8 to 4,~ cm hour this amount re- mained practically constant. With rising temperature a decreases considerably. At -61,70 the vapors of B1OC1 3and Bil C13 have the same viscosity, but at lower tem- peratures the viscosity of B 10 Cl3is lower than that of Bil Cl 3* This dependence can be represented by the equation a-1,1112.e-2033/T. According to a mass- spectroscopic analysis of isotopes of the compound BC1 3 the ratio of isotopes in the initial state is 4,11. This corresponds to the following concentration: B10 - 1915%, B11 - 80,5',4. INSTITUTION:  LAM4  J -V/, ~1 i --)' ~VORONKOVI N. and UVAROV., 0. 1, 11 - - - ---------, "Jeparation of Stable Isotopes of L10it Elements." paper to te presented at the 2nd UN Intl. Conf. on the peacefu-1 uses of Atomic Energy, Geneva, 1 - 13 Sept 58.  !Id Id L 0 4.7 00, on ;.a r d. 0 'Id u low a .2 I I 0. 1.' . d a a S. d "I d X Oa age 19 1 *a .04- 0 "- , -, ,, H. I 0. 0 zoo. L - 0 I 9.q A,4wf,; 3j~F~~.R WIA Wi 4' tvt!V! -A _Ng;~- 4 1 *01 d- UU 1 0 ' a v te ju 0 . . A. 0 bo u d a 04 &A UO 5 J I t!d~ n Pi A  47 or -0 v 0" 0 A 0 IIK; V S A 0 -0 0 a 40, I G 0 0. Ali lzg,* 9J.H. r - -!- K q I- 0 9 ~RA Iwo Ol A- a Gil .4 fm 4.3 I! p1d it a A- AD 3 JAU -00 ;&j - f J, 000 E.C..;L all b:.4 Ol A j oxr 14 16 -.0 8 A 4 tl 4~ r. IL 'he Oll em 044 X. t.0". 410 "0 it a H I  2.10) AUTHORS: TITLE- PERIODICAL: ABSTRACT: Card 1/3 SOV/20-1255-3-32/63 Matveyev, K. I., Uvarov, 0. V., Zhavoronkov, N. M., Correspond- ing Member, AS USSR The Coefficiento of the Separation of Chlorine Isotopes in the Equilibrium Evaporation of HC1 (Koeffitsiyenty razdeleniya izotopov khlora pri reLvnovesnom isparenii HC1) Doklady Akademii nauk SSSR, 1959, Vol 125, Nr 3, Pp 580-583 (USSR) The authors determined the influence exerted by the amount of impurities upon the value of the coefficient of separation. The computation was made in a provisional manner according to Rayleigh's equation. A diagram illustratea the results, i.e. the coefficient of separation as a function of the coefficient of enrichment F and of the degree of concentration. The liquid hydrochloric acid was evaporated out of a cylindrical vessel with conical bottom. Two figures illustrate this vessel which was contained in a vacuum jacket, as well as the scheme of the whole evaporator. The experimental conditions are listed, and the experimental results are shown in the following table:  -OV/20-125- 3- 32/63 Z The Coefficients of the Separation of Chlorine Isotopes in the Equilibrium Evaporation of HC1 P F experimental acomputed 167 190 1.0221 1,0022tO.OOO25 1,0022 173 285 1-017 1~00193tO.000125 1,00194 181 1 534 1.012 1-0010-0-0001 1.oo16 185 -0014 189 760 11-0013 The temperature dependence of ln a is expressed by the equation 1n a . 1.2846 _ 0,0055, where T denotes the absolute zero. The T resultant small value of a (at the normal boiling temperature of 1.0013) indicatos that it is not advisable to employ the Card 2/3 rectification of HC1 for the purpose of separatine chlorine  SOV/20-125-3-32/63 The Coefficients of the Separation of Chlorine Isotopes in the Equilibrium Evaporation of HC1 isotopes, not even in the presence of columns with a high degree of efficiency. There are 3 figures, 1 table, and 9 ref- erences, 5 of which are Soviet. ASSOCIATION: Nauchno-issledovatellskiy fiziko-khimicheakiy institut im. L. Ya. Karpova (Physico-chemical Scientific Research Institute imeni L. Ya. Karpov) SUBMITTED: December 10, 1958 Card 313  5 (2), 21 (5) AUTHORS: Sevryugova, N. N., Uvarov, 0. V.) sov/20-126-5-36/69 Zhavoronkov~ N. Member AS USSR TITLE: Separation of Boron Isotopes by Boron Chloride Rectification (Razdeleniye izotopov bora rektifikatsivey khloristogo bora) PERIODICAL; Doklady Akademii nauk SSSR, 1959# Vol 126, Nr 5o PP 1044 - ICA'6 (USSR) ABSTRACT: At the beginning, the differences between the two boron iso- topes 310 and B11 are indicated (Ref 1). The light isotope B 10 is used for filling neutron counteral besides, it can be used an a protection against neutron radiation, and for regulating the operation of reactors. The separation of boron isotopes is achieved by 5 different methods: a) electromagnetically, b) by thermodiffuaion, c) by means of.diffusion by vapor, d) by the chemical isotope exchange, and e) by rectification. The methods a) and c) make possible a high degree of separation, but are little productive. The method b) failed. At present, the two latter methods d) and e) can be regarded as most convenient for Card 1/3 the B10-production. Both of them have been chemically developed.  Separation of Boron Isotopes by Boron Chloride SOV/20-126-5-36/69 Rectification The authors think that rectification is one of the most eco- nomical methods. They carried out the rectification of the BC13 in columns of various types of construction (Fig 1). The procedure is described in detail. Figure 2 shows the course of the increase in B10 C13in the retort liquid. Within 28 days, a 5-fold enrichment was obtained at a content of 100 cm3 liquid in the distillation vessel. The stationary phase was not at- tained during the period mentioned. The calculation showed that the (maximum possible) separability of the column is equal to 800 theoretical steps. This should guarantee the obtaining of a product with a content of about 75 Mol-% Bloci 3* An approxi- mate calculation showed that the production method for ele- mentary boron described here is acceptable from an economical point of view. There are 2 figures and 5 references, 4 of which are Soviet. Card 2/3  Separation of Boron Isotopes by Boron Chloride SOV/20-126-5-36/69 Rectification , ASSOCIATION: Nauchno-issledovatel'skiy fiziko-khimicheakiy institut im. L. Ya. Karpova (3cientific Physico-chemical Research Institute imeni L. Ya. Karpov) SUBMITTED: September 5, 191,18 Card 3/3  UZANSKIY, B.A.; LUXIVA, N.Tu.; N,~~ETYAIJ, L.A.; ZOrOVA. S.V.; LOZA, G. V. ; . G.A.; OVODOVA. V.A.; UV-I~ROV, O.Y.; SoKOLOY, N.M.; SKCLINIZOV. Y.P. -- Production of high purity cyclopropane. Xhim. prom. no. 6:462- 465 9 060. (KDU 33:11) (Cyclopropane)  82733 S/389/60/009/002/004/015 6 Wo BOo6/BO56 AUTHORS: SevrZ2gova, N. N., Uvarov, 0. V.. Zhavoronkov, N. MT. TITLE: Separation of Stable Boron laoto es q PERIODICAL: Atomnaya energiya, 1960, Vol. 9, No. 2, pp. 110-125 TEXT: The present article gives a detailed description of the methods of separating the boron\\isotopes BIO and B11 which are interesting for in- dustrial purposes. The molar ratio of the two isotopes in naturally occur- ring boron is about 20 : 80. Tho various methods furnish somewhat different values, and various authors also obtained different results by one and the same method (on BF3) (of. Table 1). These problems are briefly dealt with in the introductiong after which the electromagnetic method, the method of thermal diffusionp and the method of diffusion in the vapor current of an inert substance are discussed, while in the following the two most impor- 4/ tant methods of industrial separation of isotopes are explained in great detail: the method of chemical isotopic exchange and the method of recti- fying boron halides. G. M. Panchenkov, V. D. Moyseyev, and A. V. Makarov Card 1/4  8273 8' Separation of Stable Boron Isotopes 3/0 9yWoo9/002/004/015 B006/BO56 (Ref. 31) were among the first wb.o suggested using the chemical exchange between boron halides and organic boron halogen complexes for the separa- tion of boron isotopes. The separation factor a is comparatively large for these processes and is, on the average, about 1.03. Its temperature de- pendence for the systems (C6H 5)(CH 3)OBP 3 -BF 3 and (C4H9 )SBF 3 -BF3 is given in Tabl.6a 2 and 03. Por the last-mentioned system a attains a maximum value of 1*054 at -20 C. The a-values determined by various authors by means of different isotopic exchange methods are given in Table 4. The grave disadvantage of the method consists in the high molecular weight of the complex. This is the reason why industrial plants find it less economi- cal to work by this method. The rectification methods are considerably more simple, but, in this case, the sep_iration factor is small. In B03(CH3)2' e.g., it is only 1.001; in practice, only BF 3 and BC13 are used, which have a somewhat higher a. In,t4e first case, the temperature dependence of a is given by a 1.0488 e-b-17/T, and in the second case by 2-33/T a . 1.0112 e- The temperature- and pressure dependence of a Card 2/4  62733 Separation of Stable Boron Isotopes S/089/60/009/002/004/015 B006/BO56 in BP3 rectification are illustrated also by the numerical values in Table 6 and the a(T) curve in Fig. 3. a(T) for BCI 3reatifioation is shown in Fig. 5. The greatest disadvantage of the rectification methods consists in the fact that, for the purpose of increacing a) it is necessary to 11 ork at the lowest possible temperatures, which reduces productivity be-- cause of the consumption of lic .,uid air. BC13rectification seems to be the most profitable method; though the separation factor is only about 1-0039 this value may be attained at atmospheric pressure and room tem- perature. A large table (5) shows the characteristics of the individual columns for rectification- and isotopic exchange methods (taken from Refs. 40-47). The most important data of the various methods are compared in Table 7. There are 7 figurea, 7 tables, and 71 references: 23 Soviet~ 20 US, 5 German, 4 British, I French, 6 Dutch, 2 Swodish, and 1 South African. Card 3/4  82733 Separation of Stable Boron Isotopes SUBMITTED: April 4, 1960 8/089 60/009/002/004/015 BOO YE05 1 q Card 4/4  S/076/60/034/05/10/036 0 (A) B010/B002 AUTHORS: Uvarov, 0. V1.9 Zhavoronkovq N. M. TITLE: Separation FaotorB o Boron Isotopellin the Equilibrium Vaporization of Boron Fluoride \\ PERIODICAL: Zhurnal fizioheskoy khimii, 1960,Vol.34, NO.59!PP-1004-1008 TEXT: The authors investigatea the dependence of the separation factors a on temperature with respect to the system B11F 3 - B10F3 under equilibriuz vaporization. The values of a were determined by Raleigh's distillation meth- od. In order to obtain a larger value of G 0/G E(G0 and G E - amount of substance at the beginning and at the end of distillation)~ vaporization was brought about in two stages. Experiments took place in a device suit ed for the purpose (Fig. 2)9 the main elements of which are two vaj~poriza- tion vessels (Fig. 1), in which mixing is done with magnetic stirrers. The vessels are installed in a cryootat filled with isopentane, the temperature of which is measured with thermocouples. Experiments showed (Table 1) that the maximum value of a is attalned at a stirrer speed of 200 rpm. Determina- tions of the influence exerted by the boiling te 2m~ erature (measured at 157 to 168'K) on the value of a revealed (Table that a dropi3 with tempera-, ture, which fact had already buen observed on the system B11CI - B10Cl Card 41/0 3 3'  Separation Factors of Boron Isotopes in the S/076j6O/O34/05/10/038 Equilibrium Vaporization of Boron Fluoride BOIO/BOO2 6.17/T In the present case, this dependence amounted to a - 1.0488 e- Since a rises with temperatureit is expedient to rectify BF 3 at or higher pressure. Tle samples were analyzed by means of an K-4 (MS--4) mass spectrometer. B ~F 3 was found to be the more readily volatilizing component in the temperature range investigated. On the strength of experi-. 4/ mental results obtained by G. M. Panchenkov, V. D. Moiseyev, and 1". A. Lebedev (Ref. 6) concerning the dependence of the ratio between the peak height of (BlOP 2)+ and (Si28F3)+ on the silicon fluoridA content in BF 3" less than 0.1 mole% Of sip 4 was found to occur in the samples investigated. There are 3 figures, 2 tables, -and 6 references: 3 Soviet, I American., and 2 German. SUBMITTED: June 239 1958 Card 2/2  S10761601034100910391041XX B020/BO56 AUTHORS: Matveyev, K. I., Uvarovt_P,_~,, Zhavoronkov, N. M. TITLE: The Separation Factors of Chlorine Isotopes in Equilibrium Vaporization of C1 2 PERIODICAL: Zhurnal fizicheskoy khimii, 1960, Vol. 34, No. Q,, p. 2123 TEXT: In 1959, the authors published a paper (Ref. 1), in which the separation factors of chlorine in equilibrium vaporization of HCl had been determined. When using the same method, the temperature d endence of the separation factors of the chlorine isotopes C135 and C111 in equilibrium evaporation of molecular chlorine was measured. On the as- sumption that the ratio of the vapor pressures of two kinds of isotopes of chlorine molecules is equal to the separation factor a (which holds for the majority of isotopic systems), the temperature dependence of this ratio may be expressed by the following equations: ln a = ln(pCl35/PC,37) - 1.7736/T - 0.00723 (1) 1 2 2 1n a = 1n(pc135c137/pC1*57) . 1.1392/T - 0.003896 (2) 2 2 Card 1/2  The Separation Factors of Chlorine S/076/60/034/009/039/041XX Isotopes in Equilibrium Vaporization of Cl 2 B02O/BO56 The partial pressures of the various kinds of isotopes are determined from the isotopic ratio by means of mass spectrometry. The data given in the accompanying table show that the preparation of pure chlorine isotopes by rectification of molecular chlorine is unsuitable, because even at a pressure of about 100-200 mm Hg the separation factor is very small (1-0015 - 1.0010).There are 1 table and I Soviet reference. ASSOCIATION: Fiziko-khimicheskiy institut im. L. Ya. Karpova (Physicochemical Institute imeni L. Ya. Karpov) SUBMITTED: February 17, 19050 Cerd 2/2  -R~Y. i ZHAVORONKOV, N.M. MATVEYLVR K.I.; EARqj 1. Separation of chlorine isotopes by the chemical exchange method. Zhur.prikl.khim. 34 no*3-11.2563-2566 N 161. (KM 23:2) (Chlorine-Isotopes)  h 373 G/025/62/000/004-5/004/005 1041/1241 AUTHORS: Uvarov, O.V., Sokolov, N.M., and Zavosonokov, N.M. TITLE: Physico-chemical constants of H2110_18 PERIODICAL; Kernonergie, no-4-5# 1962, 323-329 016- TEXT: The elementary separation factor for the system H2 H20l8 in the tempcrature range from 20-2100C was determined by a differential vapour prcs.3ure mcasurement method. The results are given by the formula 0C- 0.9835 exp (7-59P/T). From these results one calculates the difference in latent-.heat of evaporation of the two water speciea as 14-98 cal/niob and the boiling point of pure H2018 at atmospheric preasures as 100.130C. The refractive index difference - An - between light and heavy water was measured at I I An = 3.4 -4. Thp temperature coelfficient 200C with the results: lo of the refractive index difference between 166- 3000 was found to be 1-Card 1/2  G/025/62/000/004-5/004/005 1041/1241 Physics-chemical constants, of 112018 (1.18-i.20)' 10-6 The-density of enriched waters of varying H2018 ..concentration was measured - a't 250C and 300C 4xid the result obtained was d A+0.00107. N where &= water concentration of H2018 and A at 250 0.99720. Pure H2010 at 250 is then'l-10723 denses than normal water* There are 5 drawings including a schematic sketch of the differential vapour pressure apparatus and 6 table of results (translator's notekiimodified translation of:autlAor's abstract) ASSOCIATION: Karpov Institut for Physical Chetnistxy, Moscow. SUBMITTED: Paper presented at the 2nd conference on Stable Isotopes, October 30, November 4tho 1961. Card 2/2  MALYUSOV) V.A.; ZHAVORONKOV, 14ALAF-,'YFV, N.A.; ROMMOV, R.K.; Prinimall uchastiy-e: BABKOV, S.I., UVAROV, O.V.; SOLYANKIN, L.N.; GRISHIN, D.M. Effectiveness of regular packings in the rectification of water. Khim.prom. nc.7:519-529 JL 162. (MIRA 15:9) (Packed towers)  UVAROV, O.V.; SOKOLOV, N.M.; LUPIN, V.V.; ZUVORONKOV, N.M. Coefficients of separation of the cax)bon isotopes C12., Z1141 during the equilibriuji vaporization of methane. Zhur. VKHO 7 no.6:695-697 162. (K= 15:12) 1. Nauchno-issledovatellskiy fiziko-tekhnicheskiy institut imeni L.Ya. Karpova. (149than6) T (carbon-Isoo 4 (Evapoiati~nrs  4300 5/076/62/036/012/005/014 B101/B180 AUTHORSs Uvarov, 0. V., Sokolov, N. M., and Zhavoronkov, N. M. (Moscow) TITLEt Physical and chemical constants of heavy oxygen water PERIODICALs Zhurnal fizicheskoj khimii, v. 36, no. 12, 1962, 2699 - 27o6 18 TEM Water containing -W, if20and up.to 60% D20 was purified, and the D 0 content was reduced to 0.016 mole% with reduced heated metallic hot iKn. The following physicochemical constants were determined: (A) 16 18 The H 0 H 0 separation coefficient (.by a differential method similar 2 2 to that used by W. H. Keesom, J. Haantjea.(Physica, 20966, 1935) for separating neon isotopes. Resulti between 20 and 21; C, log a - 3.300/T -0.00722 which is in good agreement with data obtained by other researchem ~'100oC- 1.0038. The difference in heats of vaporization is 14.97 cal/mole, 18 0 the boiling point of H20at 760 mm Hg is 100-13 C. (B) The refractive index was determined with an in-terferometer. An - 0-00034NH2Oid holds for Card 1/2  S/076/62/036/012/005/014 Physical and chemical ... B1O1/B18O white light at 20 0C; N H018 is the molar part of H20 18 in the mixture. 2 Between 10 and 30 0C, the temperature coefficient of the di9ference in refractive indices of H 2016 and If2018 is (1.18 - 1,20).10- . (C) The water density was determined pyenometrically for differ'ent H 2018 contents. Results: d t - A + 0.001070 N .16, where A - 0.99720 at 25 0C, 0.99580 at 2 18 300C,and 0.99230 at 400b. At 25'C, the density of 100~6 H 2 0 is 1.10724 with respect to river water. There are 3 figures and 5 tables. The most important English-language references are: S. Sakata a. N. Morita, Bull. Chem.Soc. Japan, 29, 284, 1956; q. E. Watson, J. Amer. Chem. Soc., 76, 5884, 1954. ASSOCIATIONi Fiziko-khimicheskij institut Im. L. Ya. Karpova (Physico- chemical Institute imeni L. Ya. Karpov) SUBMITTED: June 23, 1961 Card 2/2  UVAR0Vv_O. Y.; SOKOLOV, N.M.; *Betrachtung einiger Hethoden zur Bestimung der Koeffizienten der relativen Fluchtigkoiten stabiler Isotope." Third Working Conference on Stable Iaotopes, 28 October to 2 November 1963, Leipzig.  UVAROV, O.V.; SOKOLOV, F;.M. I - ~. ~ I -... 1-4 Effect of the evaporation conditions on the value of the partition factorot in the course of Raleigh distillation. Zhur. fiz. khim. 38 no.7:1863-1864 JI t64.. (MURA 18--3)  TJVAROV. P. %on 0 c7ect organization of material &W technical supplieD. pin, SSM 17 no-4:54-58 Ap '56. (KLM 9; 8) (Gorkiy-Automobile indumtry-Finance)  UVAROV, P. Conducting tho classes an industrial safety,. Prof.-tekh. obr. 20 no.8s29 Ag 163. (MIRA 16:9) 1. Starshiy inzh. po podgotovie kadr~v kombinata Rostovugoll, g. Shakhty Rostovskoy obl. (Mining angineering-Safety measures)  , * TTVAPOV, Pf S.0 POPOV, T% G. a - 2. Tim (6oo) 4. Horses 7, Horsebreeding on a leading collective fam, Konevodstvo 23 No. 2, -1953 9. Monthl List of Russian Accessions, Library of Congress, May - 1953, Uncl.  UVAROV, P.T. Business accounting of the supply departments of the Gorkii Automobile Plant. Avt.trakt.prom. no.11:1-4 9 154. (XLU 8 _. 1 ) 1. Gortkovskiy aytozavod im. Molotov&. (Automobile Industry--Goats)  WIAROTi 9 P. T. Introducing a pneumitic gun for spot welding. Biul. tA-kh.-ekon. inform. Gon. nauch.-issl. In3t. nauch. i tekh. inforti. 18 no.6:19-20 Ja 165. (MIRA 180)  ussRI Engineering - Supply cam 1/1 Pub. 128'- 27/33 Authors. s Uvarov, P. T. Title I Supply reserves in the service of econotaics Periodicid I Vest. mash. 36A, 76-79,, Van 1956 Abstraot ~t The importance of a timely supply and proper distribution of raw materials to manufacturing.. plants are emphasized, and problems connected with inter- factory transport, cost accounting procedures and economical methods adopted in various manufacturing plants in organizing supply,, transportatioi and loading and unloading of materials, seating of coat accounting units$ wholesale priceso etc., are discussed. Institution s Submitted Z  L)vf)Rr,v, C T. I.I.; BORISOV, N.I.; YASINOVSKIT, B.S., inzh.; SANNIKOV, Tu.1., inzh.; SOKOLOV. V.A., inzh.; LEVCBMO, L.D., inzh.: NALOYEV. G.A., inzh.; CHICHAKOV, K.K.. inzh.; BARTKIN, V.I., inzh.; FRIMIN. A.Ta.. inzh. GULTATEV, A.I., inzh.; STIGREM, Ta.F., inzh.; SHAGANOVA, K.N., iuzh.; XMINSKIT, I.Ye., lnzh.; ATROY, A.I., in2h.; DIMIDOVA. K.L. iuzh.; NIKIFOROVA. Ye.D., inzh.; KLIBANOVA, V.I., inzh.,- CHIVKUHOT. X.I.. inih.; STOROZHKO, I.G.. inth.; NOTAKOVSJUT, Te.Ta., insh.; GOYKHTUL'. A.O.. inzh.; TARASOV, A.M., inzh.; SHIMMO, A.P., inzh.; --UMQL_ P skonomist; DRAGUNOV, N.V., skonomist; lAiLMASHOV. A.A., skonomist; KONKIN, N.T., ekonomist; GOREV, H.S.. okonomist. Pri- nimali uchastiye: LAPIN, T.I.; RAMENSKIT, Tu.A.; KADINSKIY, B.A.; SOKOLOV, S.D.; STOROZHKO, I.G.; FOHIRI , A.I.. POLTAKOVA, N., red.; SMIRNOV, G., tekha.red. (Organization and Improvement of production; practices of the Gorkiy Automobile Plant] Organizateiia i noverahenstvovanie proizvodstva; opyt Gortkovskogo avtozavoda. Moskva, Goo. izd-vo polit. lit-z7. 1958. 332 p. (MIRA 12:2) 1. Direktor Gortkovskogo avtomobillnogo zavoda (for Liselev). 2. Glevnyy inihenst Gorlkovskogo aytouobillnogo zavoda (for Borisov). 3. Gorikovskiy avtomobillnyy savod (for all except Kiselev, Borisov, Polyakova, Smirnov). (Gorkly-Automobils industry)  MARKOVICH9 Mark Moiseyevich;,PVAROV, Petr Yakgylevich; DROZHZHIRO Yu.B.9 ,7 -lee. 6;2- red.; KOVALEM09 V.L., tekhn. red. [Ugineering taught in a physics class] Tekhnika na urokakh fiziki. Mookvap Goo. uchebno-pedagog. izd-vo M-va proov. RSFSR~ 1960. 164 p. (Ingineering-Study and teaching) (MIRA 14:6)  1. UVAROV, S., Eng. 2. USSR (600) 4. loading and Unloading 7o Mechanization of unloading operations in lumber yards, Mast, ugl., 2, no. 2, 1953. 9. Monthly List of Russian AccessiorLs, Library of Congress, April - 1953, Uncl.  UVAROV, S.A.; TIKHONOV, A.Ya., mostoicy master (Novosibirsk) , - ~r7,-,-- .: Providing for Bafety in work an bridges. Put' i put.khoz. 7 ncr.9-.31 163. (~ff RA 16: 10) 1. Zamestitelt nachalliika Novosibirskoy distantsii po iskusstvennym sooruzheniyam (for L~varov).  UVARCI t,,,g Uvnyv red.; POPOV. A.S.. rod.; DOYAKONEIIXO. Y.K., red.; M _IJA*CMX, S.M., red.; PWROYA. T.G., red.; KOLIMNIZOV, F.K., red.; IMUTOUBg V9P., tekhn.red, [Papers at a technical conference on design, construction, xanu- facture, and use of reinforcied concrete poles for electric trans- mission lin,gs and telephone communications, November 27-30, 19561 Haterialy Tviuchno-takhnicheakoy konforenteit po proaktrioveniiu, stroitel'stim, proisvods tVU i ekeFluatateli zhelezobstonnyidi opor lIniy elektroperedscht i evyazi. Grounyi) Cheabeno-Ingushokoe knithnoe isil-vo, 1957. 163 P. (MIRA 1-1:6) 1. Nauchno-fekhnicheakaya konferentatya po proyektirovantyno stroitellet,m, proisvcdetvu i ekeplustateii zhelosobotonnykh opot linii slaktroperedschi i avyazi. Groznvk, 1956. (Reinforced concrete construction) OCIectric lines--!Poles)  WAROV, J. a. Lumbering. Log unloading device of the A1.1-Union coal Institute. Mekh. trud. rab. 6 no. 1, 1952. 9. Monthly List of Russian Accessions, Library of Congress, April 195Y2 Unclassif led.  UVAROV, S.G., inzh. Coal and timber yards for mines with removable equipment. Ugol 34 no.4:53-54 Ap '59. (MIR& 12:7) (Coal mines and mining-p-,quipment and supplies)  UVAROV S.G., inzh. Determining the fields of application in coal mines and basic parameters of coal loading into railroad cars without using storage bins. Ugoll 36 no-4:31 Ap 162,.. (MIA 14:5) (Loading and unloading) (Coal mines and mining)  FROLOV, A.G.; KOZLOVSKIY, S.I.; MEWED, Z.K.;9MCNffM p1vS.;UV#ROV,S. G.; ZVE311GORODSKAYA, G.V.; KOSTAITOYAN, A.Ya., red.lzd-va; SHEVCHENKO, G.F., tekhn. red.j- PRUSAKOVA, T.A., tekhn. red. (Principles for the improvoment of industrial complexes on mine ourfaces] Osnovy soverulienstvovaniia tekhnologicheskikh konpleksov poverkhnosti shakht. [By] A.G.Frolov I dr. Mo- skva, Izd-vo All SSSR, 1963. 135 P. (MIRA 16:12) 1. Mcscow. Institut ornogo dela. ~Inne buildings)  L 09122-67 E*4T(m)/EWPM FkN WME LWI AcC NRs AP6031769--QA~- SoURCE CODE: UR/00914/66/000/007/0048/0050 AUTHOR: Omellchenko, V. I (Engineer); Krasnikov. A. St (Engineer); X9ron!n.._V,_L- (Engince (Engi (Candidate of technical nstantinovekjyL~, sciences) ORG: None TITLE: Industrial electric paver generators using qyiA~ion turbine."ginen. SOURCE: Promyshlennaya energetika, no. 7, 1966, 46-50 TOPIC TAGS: electric power engineering, electric power plant, turboprop engine ABSTRACT: The authors discuss the advantages of using discarded aviation turbine en- gines for generating power in industrial plahts,.transport and in various branches of the petroleum industry. Units using aviation turbine engines could be made for variou power requirements varying from several hundred to several thousand kilowatt output. The authors describe a successful attempt to set up such a unit in the Soviet Union in 1965. This unit utilized an AI-20 turboprop engine in conjunction with an SGN-l 4_1#9-6 1000 kv synchronous generator.V This generating plant was equipped with an automatic control which ensured its starting, controlled its fuel and oil supply and handled emergencies. The AI-20 turboprop engine is capable of running on various fuels. It was found that it could be operated on diesel fuel and natural gas if the natural gas 1\ F  L ACC NRs AP6031769 was compressed to 10 atm. The lutr catign mixture used for operating this engine con- sisted of 75% transformer oil or MK-811and 25% MS-2016r MK-22 oil.// The engine consumed 0.8 liters of oil per hour. Sin~-e-a 1600 kilowatt generator could not be found, the engine was set to function at 50% Cap(LCity. The weight to power ratio of this unit was 12.3. The unit functioned normally throughout the test period. One of the advantages of using ouch a unit is that'it does not require vater for cooling and the exhaust gases of the turbine can be u3ed for heating purposes. Orig. art. has:. 4 figures. CODE: 10, 13 / SM DATE: None CaM P/2__ Ust  L 4-5518-66 T-21EWP(f) 1,11.4 ACC NR: AP6016917 (A) SOURCE CODE: UR/0104/66/000/00z/000510008 AUTHOR. Bukreyev, B. A. (Engineer); Tandler, M. M. (Engineer); Yakovlev,_N. A. ;'(Engineer); Uvarov, S. N. (Candidate of technical sciences); UsRenskiy, A. N. (Candidate of technical sciences) 'ORG: none TITLE: Electric generating stations with AI-20 gas turbines' SOURCE: Elektricheskiye stantsii, no. 2, 1966, 5-8 TOPIC TAGS: Saks turbine, turboprop engine, electric power plant A:r,- -1 o ABSTRACT: In 1964, plans and blueprints were developed by the Giprolestrans Planning Institute of stationary, quick-aissembled, and transportable Al-20 turboprop-o engine-driven electric power plants. Such a 50-cps, 6. 3-kv plant -As to have a capacity of IZ50, 1600, ZOOO, or 4000 kw. Sketches of the stationary and trans- portable plants are shown. Estimates show that such a plant will be economical if it is operated as a peak-load station, up to 3000-4000 hrs per year, and particularly if it uses a partly worn-out airplane engine. Orig. art. has: 4 figures and I table. SUB CODE: 10, 09N/ SUBM DATE: none i ORIG REF: 003 Card 1/1- UI)C* 6ZI,311, 3  KASHIRTS&Y, Arkadiy Sorgeyovich. Prinimali uchastiye: TOLSTYKH, A.H.; IYANSAN, T.Tu.; UVAROT, S.Y.. STNPANOY, D.L., prof., otv.red.; KORAIS, K.B., red.izd-va; SUMOYA, L.A., tekhn.red. (Field atlas of the fauna of Permian deposits in the north- eastern part of th3 U.S.S.R.] Polevoi atlas fauny permskikh otlozhenii Severo-4ostokn SSSR. Koskva. Izd-vo Akad.nalik SSSR, 1959. 84 p. (MIRA 13:2) (Siberia, Bastern-Palnontology, Stratigraphic)  UVAROV, S.Ya., inzh. Power distribution network of a modern shop. Prom. energ. 19 no.3:35-36 Mr 164. (MIRA 17:4)  UVAROV t V. -, SKRYAGA., V. IlLgh-upeed burning-in of the bottom of open-hearth furnaces. Metallixg 10 no.9i23 S 165. (.1411PA 18,9) 1, Kramatorskly met-allurgicheskiy zavod.  A11THOR: Uvarov, V and Lovashev, TITLEt Conference of the ~~hl,~Afs of 3tatisticnI Depnrtments (';oVe"hCha- nAye rukovoditeley statiaticheskikh uprnvleniy) TIER I OD ICA L: Vestnik stRtisti~i, 1958, Nr 6, pp SP-92 0!,;3R) ABSTRACT: On April 15 - 17, 1958, the TsSR UF.",H convened a conference of the chiefs of statistical departments of the autonomous re- publics, krays and oblast's. The conferfince heard reports by B.T. Kolpakov, Chief of the TsSU RSFSR; V.G. Ollshevskiy, Head of the Statistical Department of the Stalingrad Oblast'; K.F. Yershova, Head of the Statistical Department of the Novo- sibirsk Oblast'; I.I. Logac.-lev, Deputy Chief of the TsSU RSFSP; K.D. Gorbatov, Chief of the Statistical Department of the Yi- rov 'Oblast'. The speakers pointed out the greac importance of statistics foi efficient control over the economic develop- ment of the country and mentioned the centralization of the statistical control over industry and construction as ; new stage in the building of communism, Other speakers ref,:--ed to various statis-~ical problems that are still to be solved 1 their respective oblasts and krays. Card 112  Conference of the Chiefs of -Itatistical Departments 2-,50-6-15/16 Card 2/2  jj.; MIS, A.; ZHUKOVp A.p POPOV, Yu.; KAPITSKIY, R.; GOWTA D - !fflpV insh.-geolog; ABUSHAYEV, I. (&i~~grd) Our readers' letters. NTO 3 no.3:57 Mr 161. (MIRA 14:3) 1. Nachaltnik proizvodstvenno-tekhnicbeskogo otdela i chlen soveta nauchno-tekhnicheskogo obshchestva tresta *Pechorlesosplavgj g. Pechora (for Pope4v 2,0 Zamestitell predsedatelya Rostovskogo obshchestva, g. Rostov_na-Donu (for Kapitskiy). 3. Uchenyy nekretarl soveta nauchno-tekhniclieskogo obshchestva Krasnodarskoy geologicheskoy eksheditaii (for Golota). 4. Zamestitoll direktora Gorodenkovskogo khlebopriyemnogo punkta g. Gorodenko, Stanislavskoy oblasti (for Uvarov). 5. Chlen Zapadno-Sibirskogo pravleniya nauchno-tekhnicheskogo obshchestva gornoye, st. Izhmorskaya, Kemerovskoy oblasti (for Zhukov). (Technology-Information services)  I.IUVAROV9 V.-Viath. Machine for drying roadbeds. Avt.dor, 24 no.2t28 F 161, (MM 34:3) ( load machinery)  UYAROF, V. ener. Valuable manual for read foremen. Avt.dor.19 n*.8:26-27 Ag 156. (Read construction) (KIRA 9:10)  TR AN ZNIKOV, A.P.; UVAROV, V.A. Hydraulic manipulator. Metallurg 8 no.2:35 F 163. (MIRA 16-.2) lo Listoprokatnyy taekh Novolipetskogo metallurgichookogo zavods. (Rolling mills-Equipment and supplies)  Q N" i MA 7~1 fn 11 41 qj  3 do 0 q2jr0 S/051/61/010/001/009/017 E201/E491 AUTHORS: Grigorlyev, B.A., Yershov, A.G. and Uva 'S41wW.%1 TITLE: Reflection of Radiation by an Infinite Plane illuminated With a Point Source. X. Characteristics of the Radiation Field PERIODICAL: Optika i spektroskopiya, 1961, Vol.10, No.1, pp.96-103 TEXT: The authors derive theoretically characteristics of the radiation field for perfectly diffuse reflection and for specular (directed) reflection by an infinite plane when scattering in the medium above the plane can be neglected and only directional attenuation of the medium need be allowed for. Fig.1 and 2 show coordinates employed in calculations. The paper is entirely theoretical. There are 2 figures and 9 Soviet references. SUBMITTED: October 3, 1959 Card 1/1  GRIGORIYUt B.A.; TERSHOVv A.G.; UVAROV, V.A. Reflection of radiation from an unbounded plane surface irradiated by a point emitter. Part 21 Particular cases of importance for practical appl-tcationas Opt. i spektr. 10 no.2t198-208 F 161. (MIRA 14:2) (Radiation) (Reflection (Optics))  LOW S/12o/62/000/004/003/047 EL40/E420 AUTIJORS; Pubchinskiy. S-M., Batskikh, G.I., Vasil'yov, A.A. Vodoplyanov, F.A., Gutner, B.M., KuzImin, A.A., KuzImin, V.F., Uvarov, V.A. TITLE: The electronic system of the 7.Gav proton synchrotron PERIODICAL: Pribory i tekhaika eksperimenta, no.4, 1962, 2o-z6 TEXT: The article surveys the electronic system of the 7 Gev proton synchrotron, the individual part"s of which are described in individks~,l articles in the same number of the journal. The alectronke circuits control the continuous increase of the energy of the accelerated particles. For the chamber aperture. used in the apparatus, the deviation of the momentum from the equilibrium value cannot exceed + 5 x lo-3. The instantaneous values of It must be hold to with-fn 10-3 at the start (f = 0.67 Mc/s) and ' 5 x 10-5 at the end of tho acceleration cycle (f = 8.31 Mc/s). The synchrotron frequency varies from 3600 to 130 c/s. To keep the oscillations of phase with passage through resondincu less than the adiabatic damping or these oscillations, the harmonic frequency modulation of the accelerating potential by the synchrotron frequency should not exceed 0.5 c/o and the harmonic amplitude Card 1/3  5/120/62/000/004/003/047 The electronic system or ... E140/E420 or the modulation at the aame fra uunciem should be less than -4 at the start and 5 x 10- at thZ end of th 2 x 10 3 . cycitt. The spectral density of noise modulation should be of the order of "- x 1o-3 cs2/cs. The prociaion of measuring It at the instant or injection was prescribed no 3 x 10-4. Iiiuse requirements are not by a programmed frequency control with corroction for the radial and phase 5ition3 of the beam, calculated for beam intensities of 10 to 10 12 particles. The beam measuring system consists of a precise discrete integrator and a meter for the initial level of the magnetic field intensity. Special equipment is required for tho automatic measurement of the instantaneous values or frequency and field intensity, the measurement of micramodulatlan of the frequency and amplitude of the accolorating potential, variations of beam intensity over the acceleration cycle, the azimuthal distribution of particle donaity in the bunch,and the position of the beam in the vacuum chamber. An overall block diagram of the mystarm is given and also summary descriptions of the systems for generating the accelerating field, the acceleration control and the mettsuring equipment. The Card 2/3  I s/12o/62/000/004/003/047 The electronic system of E140/B42o p4rtlclcn are accelerated at the seventh harmonic of their frequency of revolution - in the band from 0.67 to 8.31 'Mc/3- Tito energy increase in 4.3 koV per revolution. Tito accelerating elements tire 2.4 in 4rift tubes located in 1:1 compensating a l a ctromagn at a. Thu transit angle in ec%ch tube in about 250 and the ratio of accelerating potential to the potential across the tube in about 0.43. The system ensure's a phase oscillation of the boara below 0.05 r and stabilizes the radial position to within + 1 aim. There is 1 figure. ASSOCIATION: Padiotekhnicheskiy institut GKAE (Radio Enginooring-Inatituto GKAE) SUBMITTED: April 23, 1962 Card 3/3  5/12o/62/000/004/015/0117 r.192/B382 AWHOR: Uvarov,,_,V.A. TITLE: A frequency- pro grajutior PERIODICAL: Pribory i takhnika eksperimenta, no. 4, 1962, Ung - 93 TEXT: The basic principle of an inteZratin- nagnetic field pick-up (transducer) and a nonl1noar'functional converter of tlic programme system for controlling the frequency of the 7 GeV proton synchrotron is described. The electronic integrator of the magnetic-field transducer is in the form of an amplifier provided with an RC negative f~eedback network.' The functional converter is in the form of two series-conno6cted amplifiers. K' and K" , .,rhich are provided with negative feedback elements in the form of nonlinear quadripoles with diodes (FiZ. 1). The diodes are connected in the feedbac1c paths of KI and, when conducting, they reduce the slope of the veneral characteristic of the programmer; on the other hand, the diodes in the feed- back path of K" increase the slope of the characteristic. Card 1/3  sli Lo/ 62/ooo/o 011/015/04 7 A frequency-prograrimer E192/E382 The accuracy of the diode functi 'onal converter is principally determined by the accuracy of the approximation of the required fuactional relationship by ricans of the diode characteristics and their stability. The maximum accuracy of the appro%iination is dependent on the number and len--th of the approximatin_c- s a gm ant zi .Tho progfrrammer, as used in the proton synchrotron, permitted acceleration of protons to the required energy while ansurin.- that the radial deflection of the beam of protons from the axis of the chamber was less than + 3 rim at the point where the inteZrator transducer was located7. There are 3 fif-ures. ASSOCIATION: Hadiotekhnicheskiy institut GXAS (Radio-enZineerin,-, Institute, GXAE) SUB'MITTED: April 5, 1962 Card 2/3  1* S/12o/62/oOO/004/015/o47 A frequency-programmor E192/E382 Fig. 1: Opu I--- Card 3/3  h0749 5/120/62/000/004/017/047 E192/r,382 C) AUTHORS: Vodoplyzinov, F.A., Zlatov, Yu.M., Uvarov, V.A., Barabash, L.Z. and Lebodov, P.I. --- TITLE: Investig&tion of the precision. system of programmed frequoncy-control of the accelerating field in tile proton synchrotron-11 PEZZIODICAL: Pribory i telchnik-a- e1csperimenta, no. 4, 1962, 98 - 101 TE')a: The program-.-.ed frequency control in the proton synchrotron is based on two, precision cleiaents: a frequency prograimmer and a driver oscillator (described 6n pp. 60 and U"q of this issue). DurinZ devolopi;iexit of this oquip,*.-ient the follo-wing problems acre investigated: 1) accuracy and stab'llity of the functional relationship of the frequency and tile magnetic field in the gaps of the electromagnet; 2) parasitic micro- modulation of the accoleratinS field ai.d 3) influence of the cliaradteristics of the accelerating field on the process of particle acceleration. The -stability was measured at 9 points of tile operating-frequency ran-e (botaeen 696 kc/s and 8.2,95 Nc/s) Card 1/3 J FEFE1?EtjCC- 5/120/G210C,01001fJO2510q-~  Invoatigation of and it was found that tile short-term instibility at the lowest frequency was + 3 X 10 rnd + 0.06 x 10- at the upper li;ait frequency; c~rrespondin- fi_,,u~es for long-term instability arc+l--.5 x 10 and +.C,.06 x, 10 -4 The parmisablq instability for-the two limits is + 10 x 10 and 0.8 + 10- . The para-dtic micro-modulation due to noise was measured at 15 fixed frequencies and it was found that this never exceeded the prescribed tolerance. The modulation due to combination frequencies was largely reduced by usin- a balanced-nii::er systc;:i. Losses in the proton beam as a function of the accuracy of the froquency-change law were investitTated during the starting of #the accelerator. For this purpose the froquency-proZraim:ier of the systera received an additional volta_cre pulse havinZ the gaussian shape and a duration of 50 - 16o lis. Introduction of such perturbations at maZnetic fields of 650, 4 000 and 6 000 Oe produced an additional radial deflection of the beam of + 2.5, � 3.0 and + 1 mm, at which the stranZth of the beam was Tialved; the freque-ney chan_qes correspondin- to these deflections were + 1.5 X 10-3 , + 10 _4 and + 1.5 x 10-5. Card 2/3  s/12o/62/ooo/oo4/017/o47 Investigation of .... r,192/E382 ASSOCIATION: Radiotelchnicheskiy institut GKAE (Radio-ensinoering Institute, GILAE) SUBMITf ED: April 5, 1962 Card 3/3  10753 AUTHOR: Uvarov, V.A. TITLE: -Measurement of components of electromagnets S/12o/62/000/004/025/o47 E039/E420 stability of coupling of the dynamic the primary fields and measuring I' of the 7 Gev proton synchrotron-1 PERIODICAL: Pribory i tekhnika eksperimenta, no.4, 1962, 131-133 TEXT: The input signal for the control frequency programming is obtained from induction coils which have a sufficiently stable coupling with the field in the working region. In this article is described the method of mnking measurements on the stability of coupling between the dynamic component of the main fjold and the measuring electromagnets of-the accel -erator; For making the measurements single turn coils were placed on the surface of the main electromagnet poles and a 30 turn coil on the horizontal' median plane of the magnet spa'ce in a measuring electromagnet. Short terin stability of coupling in the dynamic component of the field is measured for various field strengths using 50 Cycles. Typical'results expressed as deviation from the average are 3 x 10-5 at 60 to 120 09 and 4 x lo-5 at 7500 Oe- Measurements Card -1/2.  S/120/62/000/004/025/047 Measurement of stability of ... E039/E420 on long term stability are also given; for a period of 3 days the maximum deviation as measured from the mean of 10 cycles for the same conditions as before are 2 x 10-4 at 60 to 120 Oe and 1o-3 at 7500 Oe. The accuracy in the two cases is 10-5 and 10-4 respectively. It is shown tliat the stability of coupling between the dynamic components of the fields of these- electromagnets satisfies the requirements of the control frequency programming system. There are 2 figures and 2 tables. ASSOCIATION: Radiotekhnicheskiy institut GKAE (Radio-Technical Institute GKAE) SUBMITTED: April 6, 1962 Card 2/2  S/12o/62/000/004/026/047 E032/E514 AUTHORS: Vasillyev, A.A., Kuzlmin, A.A. and U ya rov, V.A. TITLEt Measurement of the frequency of betatron oscillations by the.resonance method PERIODICAL: Pribory i tolchnika eksperimentn, no./t, 1962, 134-137 TEXT; A description in given of a method of measuring the frequenc- of betatron oscillations in i-rhich the signal induced by the oscillating proton beam in pick-up electrodes is used to excite a resonance circuit. A theoretical analysis of the method ~v //-) is given. It is reported that experiments have shown that when the amplitude of the vertical and radial coherent betatron oscillations excited by a 15 IcV vcltage pulse is~ 0,01 cm, the inetho,d is capable of yielding an accuracy of about +0.2%6. The 15 kV perturbation of the beam.was applied across a plane capacitor with a gap of 11 cm and 20 cm long. It is shoirn that this perturbation is essential in the case of 7 GeV protons since otherwise the signal could not be detected with the apparatus develop'ed for the 7 GeV machine. There are 2 figures and 2 tables.  if. MrA"11V) A 5/120/62/000/004/047/047 E039/E420 AUTHORSs VladimirbAiy, V.V., Golldin, L.L., Pligin, Yu.S., Voselov, M.A., Talyzin, A.N., Tarnoov, YO.K., Konhkarov, D.G., Lapitakiyj YU#Ya., Barabanh, 4.Z. Kloopov, I.F., Labodov, P.I., KuzImin, A.A., flatalin, V.A., Onanovakiy, K.K., Uvarov, V.A., Votioplyanov, F.A. TITLE: Adjustment of the acceleration regime or the 7 Gov proton synchrotron PER1001CAL: Pribory 1. tokhnika oksporimenta, no.4, 1962, 248-255 TEXT: In order to establish the optimum parameters for programming the control frequency the lntcnsity~ poaiti~n, and frequency and amplitude of transverse'o5cillation of the bean is measured in three stages: (1) during the first revolution% (2) with a circulating beam and (3) with acceleration. For measurements on the first revolution long afterglow scintillation screens are used which arc either observed visually or by moons of a television camera. The screens are placed in the sections between magnot blocks; 15 in the initial part and 0 f inal part of the chnmber.' - lt'is,showh Ahat'thuorbit does not  s/i2o/62/ooo/oo4/o47/o47 Adjustment of the acceleration 9039/E420 dovinte by more than 1.5 cm from the axin during the first revolution. Circulating beams without acceleration are obtained which continua for 20 to 30 revs. The circulating current in determined by means of a flipht tube and the transverse oscillation frequency with an olvctrontatic probe with doubl vertical and horizontal platen. Scivitillittioti screens in the form of a grid with 851- transmission are used to show the boom position and diameter for 5 to 10 revs. The beam diameter in shown to be about 4 cm tinder normal conditions. Investigations are carried out on the optimum form of the frequency- time relation for holding the boom in orbit. The width of the trapping region is , 3 Kc/n for an initial frequency of 750 Kc/s which agrees welY with theoretical estimates. Preliminary adjustment permitted the attainment of 6.2 Gov protons and after adjustment 7.2 Gov protons were obtained on October 25, 1961. The usual intensity on a normal cycle lies in the rango 3 to 5 x 109. Thera are 7 figures and 1 table. ASSOCIATION: Institut tooretiche3koy i eksperimentallnoy fiziki GKAE (Institute of Theoretical and Experimental SUBMITTED: April 11, 1962 Physics GKAE) Card 2/2  V L 430813-65 EVIT(m)/ b!!10 7, SIM URI AT507916 B/0000/64/000/000/0197/Oiol AUTHOR: ' Vladlmirnkiv, V.V Golldip _4 -.:-! _' _, - 4. v -B G. K.. Yoirar,.Ye. G.; Kulikov, V. !";,Glu t0v%___ K;4yshev. 1 -1 nnoszon,_ji. Al.; Popkavich,_j. Stolov,.,A, H.1 Strelftnov, M. $.I TLtqY%AYjA.1 n Hi inskiy, Kjz'mi. -AA.,, K_uz1.!*R,__v,.S-; S. M.; Uvarov, V. A.; Zhadanov, V. H.,L Filaretoy. S. G. Shir%ravev. r, Z. TITLEt 60-70 Gcv Proton'Synchrolmn SOURCE: International Conference on Hig~ Energy Accelerators. Dubna, 1963. Trudy. ] 964, 197-201 i ho a cow, A to z,~ ~t, I JOPIC TAGS: high energy accelerator, synchrotron IABSTRACT: A 60-70 Gov proton taynchrotron with strong focusing in beiing constructed !not far from Serpukhov, as has been reported earlier (e.g. "Research Institute for Pectro-Physical Equipment, Leningrad," in Proceedings of the International Confer- ience on High Energy Accelerators and Instrumentation (CEM, 1959), p. 373). The . present report describes parameter changes and improvements in precision structural !characteristics of the accolon3tor, and the prevent state of construction aid-, 1963.. The parameters of* the magnet are presented In a table. A small c18!:6 in the original plans permitted an increase in the length of a part of the fr Card. 4  L 430J0-65 iACCESSION RR: ATSC07918 1 sections, soirn of which are utilized for input and exit of beams. The super-period easign is described. The lengthened sections vore obtained as a consequence-of ! shortening the f-ocu3ing and dofocuDing blocks by 112 cm. The focusing properties of the viagnatic channel were diminished consequentlyg but very.little; and the limiting, energy was lowered by 2-3 Cev. The construction of the magnet is described Each of the magnetic blocks is divided lengthwise into 5 sub-blocks which are enveloped by the conuzon winding. These sub-blocks consist of laminar two-millimeta silicon steel. These steel sheets were stamped out without subsequent mechanical working, and were subjected to sorting and Intermixing in order to smooth out their magnetic characteristics. Ilic aub-blocka are constricted by lateral welded platte without adhesion. Provision was riade for windingo on the poles in order to correct for pole nonlinearity and for variations in the drop reading. These windings make it possible to introduce artificial quadratic (square) nonlinearity that changes the dependence of the frequency of transverse oscillations during a pulse. In jorder to correct for straying of the residual field, provision has been made for windings on tho yoka in series with the main winding. The oub-blocke nuat undo ' rgo calibration on a w4not otand in order to make correcting systems more precise and to determine the moot convenient disposition of the sub-blocks along the ring. The iwinding of the electromagnet is made of aluminum busbars with hollow cores .for loooling water. /'The leingth'of the busbar in so selected that there would be no  L 43068-65 ACCESSION NR: ATS007918 'welded joints inside the coils. The winding consists of 4 sections, two of which are disposed on the upper pole and two ou the lower, The cost i=portant C!.zractor- ! isticz of the electromagnet and power supply system are described in a table. Also described am the vacuum chamber and accelerating field (obtained by 53 Paired iresonators with ferrite rings, which operate at the 30-th harmonic of revolution and:give accelerating potential of 350 kilovolts). The ring tunnel and the general arrangement of the accelerator are shown In figures and described. The building for the injector and portionu of the ring tunnel from the injector to the experL- Imental 'room have b,,en comleted in the main and are ready for installation of equipment. This room, In the form of a sinple-aiale building without intern&l Supports, permits. one to woex on beams brought into the inner and outer. sides. A 90-mater arch covers this room, whose overall length is 150 motors. Provisions have.been made for a second experimental room at the southwest part of'the ring. ~Orig. has 4 figures. 2 tables. ASSOCIATIONt Inatituta tooraticheakoy i eksperimentallnoy fIzikL GVAE SSSR (2):Vauchne (~nstitutn of -hooratical and Expenime aJq!LLj9M ionle ;atol'skiy- inatitut *olaktrofizichoskoyapparatury imeni D. V.'Tafremova GKAE SSGR (Scientific Research Institute of Electrop yskal-Ap"n",p U  L 430c38-65 ACCESSION NR: ATS007918 (3) Radiotakhnichookiy institute AN SSSR (Radio En&L Sclencea SSSR). (4) Gosudarstvennyy pivyaktnyY Lnet, InstItute, SSSR). SUBMITTEDI 26Hay64 ENCLt 00 NO REF SOVa 002 OTHERs 001 of oorsi a, w Ccrd 4/4  L 122~4_66 EWT(m)/mA(d) A-CC NRs AP6002907 (t.')/EWkz)/W(b)/SfWA(h) JD SOURCE CODE: UR/0286/65/000/02ii/0073/0073 INVENTOR: Sh-varts. Me; Tsypkina Ye. D.; Rogachevskiy, Ya. Ye.. Shaklmovich, V. A., UvE2yj_V. ~j; Balter, M. A.; Likhovskikh, 14. H. ORG: none TITLE: Cast, heat-resistant, iron-base alloy. Class hO, No. 177078 SOURCE: Byulleten' izobreteniy i tbvarnykh znakov, no. 24, 1965, 73 TOPIC TAGS: alloy, cast alloy, heat resistant alloy, iron base alloy, chromium containing alloy, nickel containing alloy, tungsten containing alloy, molybdenum containing alloy, niobium containing alloy, manganese containing allo I I 0 ABSTRACT: This Author Certificate introduces a-cdat, heat-resistanti 'irori-base~&ljoy, To improve mechanical and technological. properties, the alloy composition is as follows: 0.18--0.22% carbon, 19-21% chroadum, 24-26% nickel, 4.5-5% tungsten, 0.9-1.1% molybdenum, 0.9-.1.1% niobium, 0.1% nitrogen, _070-3-Ahum, 0.005% boxon, - 0.6% max silicon, 1.2-1-511' manga~iosej 0.03% max each of sulfur and phosphorus. (A7.1 SUB CODE: 1l/ SUBM DATE. looct63/ ATD PRESS: -f24126-194 k" 6W: 669.15 6L  16(-,) AUTHOR: Uvarov,V.B,. SOV/20-125-2-10/64- TITLEt The Theory of the Second Solution of the Differential Equation for Classical Orthogonal Polynomials (Teoriya vtorogo resheniya differentsiallnogo uravneniya dlya klassicheskikh ortogonallnykh polinoroT) PERIODICAL: Doklady Akademil- nauk SSSR,'959,Vol 125,Nr 2,pp 281-284 (USSR) ABSTRACT: The differential equation for the classical polynomials P n(z) (e.g. of Jacobi, Laguerre, Hermite) reads L [Pn(z )J-k n3(z)Pn(z)' where L z)] [(z-a)(z-b)-S(z)dP Here the weight Vz) [Pn ( d-Z z and the constant k have a different meaning fo7 different n 2 polynomials; e.g. 9(z) = e-Z , k n = -2n for Hermitean polynomials. Besides it is agreed that if the consideration relates to the interval (a,b) and if b - + oo, then everywhere only 1 is written instead of x-b (likewise -1 instead of x-a for a oD). Theorem 1: Let L[P(z)] - k3(z)P(z),,?(z) P(S) (5) d let the integral converge and let Card 1/3  9 The Theory of the Second Sol,ition of the Differential SO7/20-124-2-10/;'V' Equation for Classical Orthogonal Polynomials -a) (:Z:- b) 9 11(~-Z)p' (~) + Irp(S 0 satl!ifies the equation; Then INZ (z-a)(z-b)f"(z) v z-a)(z-b)] (lz.lo)j P(Z) 4 dz 4, r+1 d21 [(z_a) (z-b)] 4,fz) kf(z). f 2 d z2 Theorem 2: If in theorem 1: t=1,0(=a, P-b, then b Q(Z) = 1 1. P(S)S(~)d~ , z ~(a,b) (Z.) :.z' a is a second solution of the differential equation for P(Z). b 1 e (C:) d r, Theorem 3: The function q O(Z) 9 57 ,SLZ " ZE(a,b) satisfies the equation a Card 2/3  The Theory of the Second Solution of the Differential SOV120-125-2-lolc# Equation for Classical Orthogonal Polynomials 2 b const, d z-a)(z-b 9(5)d (z )(z) 2 dz2 [( 11 f a From the theorems 2 and 3 tne author concludes numerou 8 properties of the !3e-,ond solution Q(z). The author thanks A.N.Tikhonov and A.A.Samarskiy for the assistance. There tire 4 references, 2 of which are Soviet, 1 American, and English PRESENTED: November 26, 1958, by A.A.Dorodnitsyn, Academici.n SUBMITTED: November 15, 1958 Card 3/3  16(1) AUTHOR: Uvarov# V.B. SOV/20-126-1-8/62 TITLE% On the Relationship Between Polynomials Which are Orthogonal With Different Weights (0 avyazi. polinomov, ortogonallnykh a razlichnymi vesami) PERIODICAL: Doklady Akademii nauk SS841959tvol 126,Nr 1, PP 33 - 36 (USSR A3STRACT% Let IFn (X)~ and Sn(x)~ be two systems of polynomials which are orthogonal on (a,b) P-(X) P (x) dlY(x) -,0. for m n and a n M b (X-",(,j S (X) S (x.) d 6-, (x) - 0 d5-1( X) - J01 d 6'(x) n m k a I (X-8 J.1 Card 1/ 3 If all rJji and 8 1 are different, then for n>,k it holds: 10  On the Relationship Between Polynomials Which are Orthogonal With Different Weights C Sn(x) n j Pn-k (-L1 Pn+l (-~('j - - - Pn-k - - (OLI - - - - - - Pn+ 1 (061) Qn-k - (BI) ... Qn+l (BI) -- - - Qn-k - - (a k) - - - - - - "' 0-n+l(ak) Pn-k (X) ... P n+l(x) Where Cn is a normalization constant and 00f1/20-126-1-8/;-;- Pn(5)dt'ql;) Qn(x) - I *e,- x -- . A similar formula holds in the case n< k If some o( j 9 8j are equal, then Sn (x) is determined at first for different 8 and then it is passed over to the Card 2/3  Un the Relationship Between Polynomials Which are SOV/20-126-1-8/62 Orthogonal With Different Weights limit value. In the case dG(x) - d 6(-x) a b the symmetry of the polynomials is used in order to obtain two new systems which are orthogonal on the interval (0,a2) with the "ighta d64( Cx ) and xd(r( V-x ) respectively. The author thanks A.N. Tikhonov and A.A. Samarskiy for their assistance. There are 2 references, 1 of which is Soviet, and 1 American. PRESENTEDs January 19919599 by M.V. Keldysh, Academician SUBMITTED: January 13,1959 Card 3/3  16(1) AUTHOR Uvarov, V.B. C071/20-128-2-7/'~'- TITLE: Some ase Where the Characteristic Functions of an Equation are Restored From Spectral Function PERIODICALs Doklady Akademii nauk SSSR, 1959,Vol 126,11r 2,pp 246-249 (USSR) ABSTRACT: The present paper is a continuation of Z7Ref 5-7. Let be the spectral function of (1) q1 (x, ;k ) + /\ --f (x,X ) = q (x) f (x, N) for the initial conditions (2) %f (0, -h ) = h, , y' (0, ~Q = h2- Let the spectral function 4?(A) and the corresponding eigen- function f(x,-k) be given. Let a new spectral function be defined by 1. T1 OC.) (4) d 91,k( X) .111 1 d k n j=1 Card 1/3 The author considers the following problems Construct the  Some Cases Where the Characteristic Functions of SOV20-12,-;-2-7/1':,, an Equation are Restored From Spectral Function eigenfunction (k, k(x, N) wi th the aid of Y(x, -A) and which corresponds to the spectral function 51,k(") and find the equation which is satisfied by it. The author introduces the functions 00 -P(x,),A )d (5) V(X , 'X) = j t,-), and _00 OD 4)1,k(x'tA )d jl,k( (6) _Y1, k(x, f -co for x> by the ,,0 he obtains an explicit expression for (k,k(x' functions 4 and %~ as well as by their derivatives, and he establishes recurrent relations for Ol,k and lyl,k . It is proved: if 51,k (A) is not decreasing, then for A-values lfg_'~f ~1,kglpl'k Card 2/3  Some Cases Where the Characteristic Functions of SOV/20-128-2-7/5-3, an Equation are Restored Prom Special Function have no zeros outside of the spectrum. The author thanks I.111.Gellfand for the theme, and A.A.SamarBkiy for advici * There are j Soviet references. PRESENTED: "ay 21, 1959, by II.V.Ke:Ldysh, Academician SUBMITTED: MaY 19, 1959 Card 3/3  S/558/6o/ooo/oo6/oO2/oo6 o o E032/B514 AUTHOR., ~jKarov, V. B. TITLE: On One Class of Integral Representations of Hypergeometric Functions PERIODICAL: Akademiya nauk SSSR. Vychislitellnyy tsentr. Vychislitellnaya matematika; sbornik, No.6, 196o, pp. 17-33 TEXT: It is well known that all the hypergeometric functions satisfy the second order differential equation (x - a) (x - b) 4!L~ + (1,*c W (x). dx' dx (1) The above equation for F(.x) ca.nl.be rewritten in the form d [(X_C..)(x F kp (x) F (x). _b)p(x)L Wx- dx] (2) where the function (x) -is defined by Card 1/4  S/558/60/000/006/002/oo6 E032/E5i4 On One Class of Integral Representations of Hypergeometric Functions d((x a) (x b) 9 (x)] (Ix 1o) p (X). (3) The present author discusses integral representations of the form P (Z) P (2) dz. CITI + Clfl (z X)~ P, P where F(z) *is a special solution of the hypergeometric, differential equation and (P-L(x) and T,(x) are two linearly independent solutions of the*,hypergeometric equation with differ- ent values of the parameters. The basic theorem which is Card 2/4  S/558/6o/ooo/oo6/002/Oo6 E032/E514 On One Class of Integral Representations of HypergeometrIc Functions established is the folloiving. Suppose F(x) satisfies the differen- tial equation given by Eq.(2). It is proved that the function zP (z) d (.Y) (4) will then satisfy the differential equation 0 (x - a) (x b) Y'(x) ++_~ p - a) (x - b)) - Ix 4- lo) 9, W dx (5) 2 dx2 provided the integr.al.which.defines y(x) converges and (z- a) (z-b)p (Z). + IF (z)q0. (z - X), z (6) Moreovez-7, one of the limits (p or q) can be taken as equal to x Card 3/4  S/558/60/000/006/002/oo6 E032/E514 On One Class of Integral Representations of Hypergeometric Functions if Re < 1. It follows from this theorem that if cp,(x) and 42 W are solutions.of Eq.(5) then P (Z) P (Z) (fz = CIT, (X) + CIT! (V) (7) This theorem is said t o have been first established by baranetskiy (Ref.3) in 1873. The discussion is then continued for three types of hypergeometric equations, namely, the equation for the non-degencrate hypergeometric function F(a,P,y,x), the equation for the degenerate hypergeometric function F(a,y,z) and' the equation for the Hermite function H., (z). Explicit integral representations for the above three cases are quoted. Some of these representations are well known but are included for the sake of completeness. Acknowledgments are expressed to A. A. Samarskiy and A. F. Nikiforov foi assistance and interest. There are I figure and 3 references: 2 Soviet and I non-Soviet. Card 4/4  7 S/04 62/000/003/057/052 C1 1 1YC444 AUTHORS: Uvarov, V, B.v Nikiforov, A. F. TITLE: PERIODICAL: TEXT: 1 d2R + V(r)R = ER, R(O) = R(co 0 2 dr to solve the problem 1 d2~ 2 + V (r) R - ER, ^R'(0) - 'R'(co 0 dr where V(rA As) is chosen such -that the solutions of the aquation On an approximation method for the solution of the Schrbdin6er equation Referativnyy zhurnal, Matematika, no- 3, 1962, 30, abstract 3V161. ("Zh. vychial. matem. i matem. fiz.11, 1961, _1, no. 1, 177-179) One proposes instead of the problem Card 11Q,