SCIENTIFIC ABSTRACT MIKHAYLOVA, N.B. - MATVEYEVA, A.D.

103004-47 Wr (1) 0,WM-2 ~AC(- W ------- I A 6033291 SOURCE CODE: UR/0141/66/009/005/1030/1032 ?,e 8 AUTHOR: Alekseyev? V. A.; Krotikov, V. D.; Matv ; Mikhaylova, N. B.; eZev Yu. G. Forfir'yev V. A.: Ryazanov, V. P.; Sergeyeva, A. I.; Strezhneva, K. M.; Tro"t kly V. S.; Shmulevich, S. A. ORG: Scientific Research Inatitute of Radiophysics2 Gor'kiy Universit (Nauchno- issledovatel' kiy radiofizicheskiy -insti-t'ut pri Gor'kovskom universitete) TrTLE: Results of measurements of lunar radio emissions at wavelengths of 7.93, I.L.0, 14.2, and 20.8 cm % SOURCE: IVUZ. Radiofizika, v. 9, no. 5, 1966, 1030-1032 ,e-VA40910- II)PIC TAGS: radio astronomy, parabolic antenna, Aradio emission y AwNAoe r-vv v,,eoAh"F.0T ABSTRACT: The mean effective temperature of the moon was measured in 1964-1965 at Zimenki Station mthe 7.93,11.0, 14.2, and 20.8 cm wavelengths. The basic Masuring equipment included it radio telescope antenna 4 m in'diameter and two receivers operating on wavelengths of 7.5-15 cm and 15-30 cm. The fluctuation sensitivity threshold of the receiving equipment was from 0.4* to 0.7* at a time constant of 16 sec. The radio emission of the moon was compared with the reference enission of a disk (diameter, 380 cm) coated with absorbing material. The disk was placed in the Fraunhofer region, 230 m from the telescope aperture. The results of measurements* of the phase'dependence of the moon's effective temperature are shown Coid 1/3 UDC: 523.164.34  mini ~mml MHOMMORM ACC NRs AP6033291 Fi 1. Phase dependence of the mean -effective temperature of the moon 41 -M grgmk' lip 1j9 tip fig IV in Fig. 1. A small change in the mian effective temperature as a function of the lunar phase was noted on the 7.93 cm and 11 cm wavelengths. The rms dispersion of the experimental points in regard to the approximated curves is *3*. The variable portion of lunar radio emission should theoretically be 3.5-4K for the 14.2-cm wave- length. Since the rms disperuion of experimental points approx1mately eqmdathis' value,  n3nch-67 ACC NRt AP603329-1 Fig - 1. shows only the value of the C onstant compouent of the mean effectKe tempersum, ajnBM which was 2211". Measurements on the 20.8-cm wav,!Iength were conducted during the partial phase cycle. The constant component of the mean effective temperature for this wavelength was 225K. Error did not exceed t:0.5%. Orig. art. has: 1 formula, I table, and 1 figure. SUR CODE: O-S/ StMM DATE: 25V~666/ ORTO REV: OOSJ ATD PRESS: 5099 awm ard 3/3  SOURCE CODE: jWW66/&~/663/62~6/4)437 AMOR: q1nin.. Eo I.; Kordbeynikav,, L. S.; K~uli um G. N. * Lazar T__ pL~ P5F Ve3re%FJ' Yu A S. G.; Skrinskly, A. N.; Starodubtseval To Pe; T~-M~ ~G-- ORG: none TITLE: Control and regulation system for the electron beam un-ameters in the VEP-1 electron-electron storage ring Y SOURCE: Atomnaya energiya, v. 20, no. 3, 1966, 22D-223 TOPIC TAGS: electron beam, electron acceler&tor, storage ring, plasmoid acceleration, synchrotron radiation ABSTRACT: 7he authors describe briefly the rwidn systems used for different stages of adjustment and pbysical research of the VEP-1 assembly, first described by G. I. Budker et al. (Atomnaya energiya v. 1-9, 498, 1965). The parameters investigated were the magnitude of the injected current, the angnilar divergence and transverse dimen- sions of the beam, its energy and energy spread, and the position and angle at the exit from the cle-:!tron-optical chamel. The number of injected particles and the phase difference between the input and output were measured with lead probes. The first revolutions of the captured current were! observed by recording the synchrotron radiation with a photomaltiplier. The captured and stored currents were also measured!, 'with the aid of the synchrotron radiation. The radial position of the orbits was con-1 trolled either by regulating their radii by cbanging the frequency of the accelerating~_ Card 1/2 uDc: 621.384.6  L 07062-67 ACC NRv AE6021624 voltage or by producing azimuthal modifications of the magnetic field with additicnal turns. The positions of the orbits at the collision location were roughly monitored by means of an optical television systern., and more accurately by a remotely cont diaphragm located at the place of encounter. The systems used to measure the 0- sity., to control the radial and azimuthal positions of the plasmoids,, to determine the phase dimensions of the plasmoids,, and to monitor and study various coherence effects are briefly described. The lifetime of the beam was monitored continuous3,y with a speciELI electronic system which determined the logaritImdc derivative of a signal pro- portional to the current in the track. orig. art. has: 6 figures. SUB CCIDE: 2D/ SUM DAM: 22Nov65/ ORIG REF: 003/ OTH MW: 001- C,,d -2/2,tr-  TAA-IVEM, Yu. r. Cand. TecI4.+al Sci. nGalibration of* Mandrels of Piercing Vi-Ils 1)), Transverse Lamination". Stall, No. 4, 194F; Mbr., Sci. Res. Pipe Inst.-cl94e-.  PA 18/49T24 ITATV-DY-LIVI Yu. M. Pipe, Steel Rolling M1118 "Review of Tu. 1. Nikolayevsklys Book, lRolling and Finishing Steel Pipe,'" 1. S. Borisov, Yu. M. Hatveyev, Candidates Tech Sci, 4f pp "Stall" No 12 Book contairw - errors and cannot be used as a bandbook. Does not present up-to-date pIcturre of present state of UM Industry. 'Useful as intro- duction to fundamentals of 4mbject. Published by Metallurgizdat, Kharlkov-Moscow, 19U8, 438 PP, 211 sketches. 26 2  I'mVIV, Yu. M. Evarriye truby; sovremennyo metody prolzvadstva. 14oskva, Metallurgizdat, 1950. 335 P. illUB. Bibliographyt p. (333)-115. Welded pipes; modern methois of production. DLC: TS280.M37 SI): Manufacturing and Mechanical Engineering in the Soviet Union, Library of Congress, 1953. I---'  II in IV-71 YU. Y. Tedinoiop-,- (Groove designing of ro--Iers md tools o.1 pipe mills). t. 1951. I'lontUy List of Russi= Accgtssinns. Libx---:!-ry of C ngress, November -952. IT.,CLAS-*D =--.  FIA TVEYEV, YU Y, N/S 733-9~-', JX Kalibrovka Valkcyv i Instrumenta TrubrTkIi Stanov (Calibration of Rollers and Instnxmnts in Tube-Polling Mills, by) Yu. V. Yatveyev i -YL. L. V,-tkil2. Yoskma, Metallurgizdat. 1,051. 412 p. Illus.s Diagrs,g Tables. Bibliography: p. 410-412.  XATWTbYBV, Yu.H.- VATKU, Ya.L.; OSADA, Ya.ye.. kandidat tekhnichaskikh nauk, KIMYLOV, O.A., redsk-tor; SWERDRIIIA, I.F.. tekhnichs- skly redaktor [Groove designing of rollers and tools of pipe mills) IalIbrovkB valkov i izwtramente trubnykh staniw. Moskva. Goo. naucbsp-tekhn. izd-vo lit-ry po chernoi i t evetnol metallurgii, 1951. 412 p. [Microfilm] (Kw 10:7) (Pipe, Steel) (Rolling mills) (Tubes)  14ATVLTEV. Yu.1A--kftnd.tekhn.ns:uk Conditions of metal gripping by rolls in Inclined rolling. Obr.riet.davl. no.2:29-35 '51. (MIRA 12:10) 1. GosudarstvenrWy Institut proyektirovaniya metallurgi ell enkik-h zavodov. (Rolling (Metalwork)) (Friction)  SOV/130-58-8-18/18 AUTHOR: Matveyev, Yu.M., Candidate of Technical Ociences TITLE: Tube Prod:'c"~tion ~ England (Proizvodstvo trub v A_~lii) PERIODICAL: 11-tallurg, nr 8, pp 38 - 40 (USSR) ABSTRACT: The author, who visited the British steel industry in 1956, as a member of a Soviet delegation, describes British tube-making installations and products. There are 4 figures and 1 table. 1. Steel tubing--Great Britain 2. Steel tubing--Production Card 1/1 USGONNI-D&-55616  MMOLAW, NJ.; RAMYEV, yu.M., rediaktor; GORMN, L.M., redaktor. [Pipe rolling roduciionj' ph'~~ 94' A! " 4i UYoprokatuos proirrodetvo. Nookwa, Goo. nouchno-tekhn. ixd-v,D lit-ry po clwrnol I tevetmol metallurgil, 1933. 431 p. (Pipe, Steel) [Rolling (Metalwork)) (MLRA 7:6)  Ki SSW Yu K,- nICEBMIY, M.7a.; TMONW. N.A.. toufjhMy rodaktar; J Wf~MIT, L.Te., rodaktor; MIXUrWVA, V.V., tokbnIchookly redaktor. [Pipe flulahlog] Otdolks trub. Fbd mmohnol red. B.A.Mbonova. NDskya. Goo.nauchno-tekbn. izd-vo lit-ry po chernal I taystnol notallurgit. 1954. 446 p. ()UBA 7:11) (pipe)  133-11-8/19 AUTHOR: -Matveyev, Yu.M.,_Candidate of Technical Sciences. TITIE: Tube-making Industry in the USSR (Trubnaya Dromysh-lennost' SSSR) PLIZIODICAL: Stall, 1957, n0-11, PP. 99? - 1005 (USSR). ABSTRACT: A brief review of the development of the tube-making industry in the USSR and some special features of the tube mills of Russian design are given. The contribution of P.T. Yemel'yanenko, Corresponding Member of the Ac.Sc. Ukrainian SSR, and his co-workers: S.I. Borisov, A.A. Shevchenko, Va.L. Vatkin, Ya.Ye. Osada and A.I. Iselikov, Corresponding Member of the Ac.Sc. USSR, A.F. Che~Emarev, Member of the Ac.Sc. Ukrainian SSR, M.A. Pisanenko, V.S. Smirnov, I.V. Dubrovskiy and others to scientific investigation of the technology of tube-making is mentioned. There are 2 tables and 6 figures. AVAILABIE: Library of Congress Onrd 1/1  KLMYBT . ~t_ d.tekh. nauk, Manufacture of pipes used in airplane construction. Blul. TMICHK no.16:23-26 172. (KM n t5) (Pipe, Steel) (Airplanes-Design and construction)  7 133-2-1011) .AUTHOR: Matveyev 2Yu. M. (Cand.Tech.Sc.) TITLE: Modern Pilger Mills (Sovremennyye piligrimovyye ustanov'_Ki) PERIODICAL: Stal'. 1958, Nr 2, PP-151-155 (USSR) A13STRACT: This is a review of Western literature on the develoD- ment, equipment and -technology of pilger rolling of seamless tubes. There are 2 figures and 5 references. of which 5 are English and 2 French. AVAILABLE: Library of Congress. Card 1/1  kand. nauk. --- -OV ar Hodern Pilgrim mills [with sum=7 In AnglIsh], Stall 18 no.2:151- 155 F 15B. (MM 11:3) (Rolling mills)  ,IWVLTV, ru,H., kand.tekhn.nauk - Pipe production In Great Br-Italn. Metallurg 3 no-8:38-40 Ag 15,9. (MIRA U:9) 1. Gipromez iGreat Britain-Pipe. Steel)  -HATVBTNV, YU.N.9 kand. tekhm.nauk Conference on piolucing thin-valled pipes. Stml'18 no. 6:547 jo 158,b (MrRA 11:7) (Pipe, Steel) (Rolling(Notalwork))  MISKIY. Bjs [deceased]; BURIYANOV, V,F,; VASILIYU, Ye.P.,; VITKINA, 3.1o: GALLLY. U.S.; LSVIR. G.I.;-~T _--- Jff.--Yu.Xz, MP_LWMMIN. A.B.; RCKMM, U.S., red...- ISTONIN. AJ., red.; GWY red.; MUOMUMCKIY, N.I., red. Izd-va; LUIAM, A.I.`,\,,tekhn. red. [Ferrous metallurgy in capitalistic countries] Chernaia metallurgiia kapitalisticheskikh stran. PtA [Rolling zdll production] Prokatnoe i trubnos proizvodstvo. Bel'skii. B.3. and others. Moskva, Gbs. nambno-tekbn. lzd-vo lit-ry po chernoi I tovatuot metallurgil. 195B. 627 p. (HIM 1-1:7) 1, Moscow. TSentral'rq7 naimhno-issledovatellekly institut chernoy metallurgil. (Forging) (Rolling (Motalwork)) (Pipe, Steel)  HAMM. Yu.H., kand. takhn. nauk ~- - ' ~ Production of electrically welded gag pipes(from foreign periodicals). Stall 18 no. 6:541-546 JO 158, (MIRA 11:7) (pipet Steel-Weldiag) Olactric welding)  SOV/133-58-6-20/33 AUTHOR: Matveyev, Yu-M..,.Candidat;e of Tpcbnical Sciences TITLE: The...Prn~Uc_t*_io"'n' D'f Gas Pipes by Means of Electro-~,!eldir_C (2~?014odstvo gazovykh trub elektrosvarkoy) PERIODICAL: Stal', 1958, Nr 6, p1) 541 - 547 (USSR) ABSTRACT: This is a survey of Western literatu-re on tie There are 5 references, I of which is Gerran, 1 E_~I*&` --i' 3 French. Card 1/1 1. Pipes--Production 2. Electric welding--Applications  SOV/133-58-6-21/311 AUTHOR: La.tveyev, Yu.1d., Candidate of Technical Sciences TITILE: Conf erence on Probleris of the Yanuf acture of Tlin-V:a C Pipes (Soveshchaniye po voprosam proizvodstva trub s tonkimi stenkami) PERIODICAL: Stall, 1958, Nr 6, p 54/ (USSR). ABSTRACT: The conference took place in February, lc~58 'n Dnepropetrovsk. It was called by Gosplan of the USSR, Gosudarstvennyy Nauchno-tekhaichskiy komitet Soveta Vlinibtrov SSS'R (State Scientific Technic.1 Committee of the Council of 1111inisters of the USSR) and Nauchno-tekhnichesk,6yeobshclestv:~ chernoy metallurgii (Scientific Tecl-nical Soci~-tly ~f t-'e iron and Steel Industry) in order to discuss the problems of ti,e manufacture of thin-walled pipes. The follo,!,,inL papers read: "The Production of Electrically Welded and Welded Tli.,- walled Tubes" by S.I. Borisov, Doctor of Technical Sciences, "Production of Thin-walled Tubes on Large Autoratic L-Iills" by I.A. Fomichev, Doctor of Technical Sciences, "ProC~.,ction Thin-ralled Tubes of Small Dimensions on Automatic and 4 Cal Continuous Mills" by A.A. Shevchenko, Doctor of Tec.,.n. Sciences, "Production of Thin-walled Tubes on Pil,rrim ."11s" Lwl i I by O.A. Plyatskovskiy, Candidate of Technical Sciences, Gard 1/3  F ,.GV/13~-58-6-21/3L . j alled ipes Conference on Problems of the Manufacture of T in P "Production of Thin-walled Cast Iron Pipes" by A.I,!,. Gora, Engineer; "Production of Thin-walled Tubes by Cold-roll-iri.- a.-id Drawing" by P.I. Orro, Candidate of Technical Sciences, "Design of New Mills for the Production of TLin-walled Tubc,i~" by V.V. Nosal' , Candidate of Techideal Scieiices, "On Plani-in. the Production of Tubes by Length", by A.Y&. Levin, En- i;_~e,- i "Economic Advantages of Production of Welded and Se3i, les,; T, i--I- walled Tubes" by L.I. Spivakovskiy, EnSineer. The coni'croijce pointed out that in spite of some progress in this requirements of the natiDnal economy are not satisfied. ThIle lagging is mainly caused by insufficient study of ti-c tecllnolo6g of production and application of thin-walled tubes, irrational production plannine; and preraium scheme, slow desi&ninj~ of neT mills and a low quality of tube-making tools. The conference decided to increasein 1958, the volume of research work on the production and application of thin-walled pipes, to develr~p a new system of planning production which will take 'I-nto consideration the actual technical difficulties in manufacturiiG and thus stimulate the production of thin-walled tubes. S:~L.e uard 2/3  SOV/133-58-6-21/33 Conference on Problems of the Manufacture of Thin-walled Ilipes recommendations regarding improvements in the production of tubes we-re given (not specified) and dimensions of sean-less tubes established. Some other recommendations expressed in general terms are quoted. 1. Pipes--Production Card 3/3  B31RLIN, R.I., referent; HATUM, TuM. Vena%unla (from Ole Petallurr na Now pipe rolling mill in ia Italia , no.6, 1956; 51ron aut Steel Nnglueer." no.2, 1958, no.5, 19591. Stall 20 no.9:835-837 S 160. (MMA 13:9) (VemezueLa-Pipe mills)  S/133J60/000/012/010/015 A054/AO27 AUTHORSi Ji ~ve _Can4idate of Technical Sciences, and Freynkman, Z.Ye., Engineer TITLEs Extrusion of Steel Tubing PERIODICAL: Stall, 1960, No. 12, pp.L122-1,126 TEXT: .0-on!"recent years the method of' producing tubes by extrusion has become more widely used abroad. Extruding tubes from stainless heat resistant and other steels is known to have several advantages% tubes can be extruded from steels with a low plasticity, the tube surfaces (both internal and ex- ternal) are not damaged, various profiles can be manufactured, the process can be adjusted to producing tubes of various diameter, etc. By reference to studies of several American, German, French, Swedish and Italian vertical presses and horizontal hydraulic presses, in the GIPROIE-Z plans for tube extrud- ing shops have been made and the technology of this procluction method estab- lished. These shops consist of two production lines, the first with a 1p600- ton horizontal hydraulic press, the other with a 3,150-ton press of similar type for producing tubes and tubular elements from stainless heat resistant high alloy steels and alloys of various types for the engineering, chemical and Card 116  Extrusion of Steel Tubing S/I33J60/000/012/010/015 A054/AO27 other industries. These shops extrude tubing and tubular profiles 38-150 mm in diameter, 4-9 m long, with a wallthickness of 2.5-6 mm. The annual output is planned for 33,000 tons. The tube blanks with internal diameters under 50 mm are manufactured 'by boring or broaching from rolled rods, 2-7 m long, 100-270 mm in diameter, cut into 400-700 mm long pieces. The billets are either fed into the horizontal boring machines for boring holes or immediately on the shelves of Vne induction furnace (Fig. 1). Depending on the metal the billets are made of, they are induction heated to 1,050-19250OC9 then pushed out of the furnace onto a conveyor taking them to the broaching presses. Before arriving in the container of the broaching press, the billet is coated by glass and after broaching it is formed into a tube blank (Fig. 2) and transported to a bath of molten barium chloride. In the bath the tube blanks are reheated to the extrusion temperature (1,050-1,2500C) depending on the type of steel. By this treatment the surface of the tube blarit is cleaned from the scale formed during the first heat treatment, broaching and transport. In the following stages scale forming on the tube surface is prevented by the barium chloride coating. After removal from the bath the tabe blank is put on a track which is coated with glass powder or fiber. By rollIng along this slope the hot tube blank is also coated with glass. Glass powler is scattered inside the tube Card 2/6  Extrusion of Steel Tubing S/133/60/000/012/010/015 A054/AO27 blank which coates the internal surface- during rolling. If no glass powder is put in the tube, the internal surface is coated by a textile-glass hose pulled over the mandrel to be pushed into the tube blank. Between the mandrel and the die of the extruder -a gap is formed, through which the tube blank is pushed. The operation of the extruder is represented in Figs. 3 and 4. Tube blanks bored on a horizontal boring machine are indUCtioh heated to 650-8500C and immet'.1ately put into the salt bath for heating to the extrusion temperature. After extrusion the tube is cut off from the butt remaining in the container; it is cut by a saw to a length of 4-9 m. Af-~er the saw there is the hardening bath for the heat treatment of sustenite steel tubes, the chamber for delayed cooling of martensite steel tubes or cooling equipment for tubes made of other high-alloy and carbon steels, (perlite-ferrite types) and alloys which have to be self-cooled. After edge-cutting the stairdess steel tubes are put in the pickling bath. Tubes made of steel for which heat treatment is required after cooling are carried to the respective shops for tempering, normalization or hardening, as required. After heat-treatmen-; the tubes are straightened and then put in the pickling bath. By extrusion it is possible to manufacture carbon steel tubes with intricate continuous sections which cannot be produced by rolling. There are 4 figures and 2 tables. Card 3/6  -Extrusion of Steel Tubing S11331601000101210101015 A054/AO27 Fig. I Layout of the tube extruding equipment a-induction furnace; b-conveyor; c-verti.cal broaching press; d-salt bath; e-truck with the device for coating the tube blank with glass; f-horizontal tube extruding press; g-output end of the press; h-tube cutting saw; i-hardening bath; k-cooliTV.- table. Card 4/6  Extrusion of Steel Tubing Fig.3: Forming the tube in the horizontal hydraulic profile- tube press a-position before extrusion; b-extrusion; c-end of the 'extrusion process; d-removal of extrusion Nvaste; e-pushing out the extrusion waste Card 5/6 S1133160100010121010/015 AO~VA027 N LI aO~  Extrusion of Steel Tubing Fig 4: View of the main elements of the horizontal hydraulic press a-pontainer; b-billet; c-extrusion disc; d-punching device; e-die holder; f-die; g-rotating handle; h-extrusion waste; i-the finished profile;,-.., ~-sirringing saw 4- tv "Z~ Card 6/6 3/135/60/000/012/010/015 -A-054/AO27  t--A, P, -1-'\j ~ '~ ~_ ," 25 UP2) PHASE I 1KW EXPLOITATION SOV/4549 Polukhin, Petr Ivanovich, fimm Maksimcly1ch Fedosov, Andrey Andreyevicb Korolev, and Yurty Mikhaylovich PAtvayev Prokatnoye proizvodetvo (Minufacture of Rcaled Products) Macow, Metallurgizdat, 1960. 966 p. Errata slip inserted. 10,500 copies printed. Ed.: N.P. Gromov; Ed. of Publishing House: V.M. Gorobluchenko; Tech. Ed.: L.V. Dobuzhinskaya. PUNPOSE: This textbook is intended for students of schools of higher education for use in the course "Pressworking of Mletals.0 It will also be helpful to technical personnel in the metallurgical and maebi e-building. industries. COVERAGE: The book deals with procesbing techniques, roll pass design, and equip- ment of raills used in the production of various rolled products. The authors give methods for designing basic parameters of rolling processes and rolling equipment. Mis following personalities we mentioned: G.K. TAm , Deputy Chief Rngineer of the Mar.mitogorskiy metit1lurgicheskiy kowbinat imeyki Z.V. Stalins, (PasmitogorBk Yletal- lurgical Combine limeni Z.V. Stalin); N.P. Gromov, Docent, Candidate of 21achalcal Sciences (vbo reviewed the manuscript); Ya. L. Vatkin; and the members of the CZAI__~  VAnufactura of Holled Products SOV/4549 Department of Rolling of the Moskankly Institut stall InenI I. V. Stal Ina (Mscow Institute of Steel ineni I.V. Stalin). Also cited are textbooks on rolling used by students in schools of Mgbor tec1mical education. There ant 161 references, aU Soviet. TAM OF COYZM: Foreword 7 Introduction 9 PART I. GEMMAL PRONIM OF ROLLING 15 Section 1. General Outline of FOlling, Types of Rolled Stock and Classification of Rolling )dlls 17 Ch. I. Basic Principles of the Process of Rolling 17 Ch. 31. Types of Rolled Stock and Steelis Usegl for Rolling 27 Ch. ITI. Purpose and Classification of Rolling Nills 35 Ch. IV. Preparation and Beating of Initial Materials 47 1. Preparation fror .-olling 47 carkA/a;P--,  MATVEM, YUOH.� KAR]MV.9 v0pe Basic trends in the expansion of the Stmiet pipe Indu try, Meta-uurg 6 no.U.-25-207 N 16.1. (Km i4:n) ,lp Gosudarstvann" goyumW institut p0 p"yaktirovaniyu S*kILUvr9icheWdlcb zavodov. (pipe mine)  YU M. HAVEYLY e 9 kand.tekhn.nauk; WADA, Ys,976., kand.tekhn.nauk Production,in England of thin-walled seamless tubes. Stall 21 no.5: 429-438 MV 161. (MIRk 14:5) (Great Britain-Pipe mills)  S/137/62/000/001/086/237 A052/A101 AUTHORSt Matveyev, Yu.M., Krichevskiy, Ye.M. TITLE: Some theoretical problems of strip molding in molding stands of tube-welding mills FERIODICALs Referativnyy zhurnal. Metallurgiya, no. 1, 1962, 32, abstract 1D21l (V sb._"Stal'", Mo8ccw, Vkttallurgizdat, 1961, 355 - 364) TEXT: The state of stress in the deformation seat is considered at bend- ing the strip on roll-bending mills and in dies, and the causes of cold hardening and of formation or absence of crimps on the strip edge are-explained. Four types of calibrations areused on the tube molding ntillst segmnt, flat strip with bent edges, same none-flat strip and angle. The calibrations used can be classi- fied into 3 main groups: open gauges for flat strip, open gauges for non-flat strip and closed ones with a split washer. In view of the high stability of the bent strip against buckting, the maximum deformation mustpe applied in the 2nd group gauges; in the lot and 3rd group gauges, especially when coiling the strip; the-bending must be decreased to avoid the crimp formation. By the pub- lished methods of calculation the number of stands is usually more than necessary Card 1/2  S/1_37/62/000/001/086/2~37 Some theoretical problems ... A052/AIOI in practice and on the contrary less when molding thin-wall profiles. Curves for determining the optimum coiling radius, depending on the re-lative length of the deformation seat and with the allowance for'the strip thickness,'are given for the oasB of-segment molding; the curves differ considerably from those published previously. There are 5 references, Ye. Bukhman [Abstracter's notes Complete ty-anslation' Gard,2/2  AM, V.L.; ALIDITBV,% K.N.; ANANYAN, V.V.; BMIN, R. I. [deceased]; ISTOMIN, A~V.; KAGAN, I.A.; KRONGIIUZ, N.D.; KULAZOV, A.M.; MMOV, V.P.; NISMAYW, A.M.; OSIFOV, A.P. [deceased]; POZIN, M.S.; PAYNSHTEYN, V.M.; SHAPIRO, B.S.: SMWIOHANKO, N.Ae; SHCHIRIN, V.N,; ALISHNVSKrY, L.Te., kand; tothn,nauk, red,; VLADIMIROV, Ta.V., red,lzd-va; MIEHxnwA. V.V,, tokhn,red. [Rolling and pipe mills] Prokatnoe i tmbnoe proizvodstvo. Pod red. L.E.Al'shevskogo i A.V.Ietomina. Moskva, Goo.nauohno- tekhn.Izd-ro lit-ry po ahernoi i t9VetnOI MOtallurgit, 1962. 246 p. (MIRA 15:2) 1. Moscow. TSentral'ny7 Institut Informatsit chernoy metallurgii. (Rolling mills) (Pipe Mille)  v e PHASE I BDON EXPLOITATION SOV/6044 Rokotyan, To. S., Doctor of Technical Sciences, Rd. Frokatnoye proizvodstvo; spravochulk (Rolling Industry; Handbook) v. 2. Mosqow, Notallurgizdat, 1.962. 685 p. 1B5W copies printed. TaqWcal Candidate of Technical SoienceisOjl. V. Barbarich) Candidate of Technical .11clenceaj B. P. Bakht-Mv--C-Md- an ate of Technical Sciences (dece-asedIj B. A. Bryakhanenkop CandgLdate of Economic Scienceel H. V. VasillchIlrov, Candidate of Technical Sciencesi L. 1. Vltk-Inp Doctor of TachnIcal Saienceal S. P. Granovskiya Candidate of Technical Sclenassj P. 1. Grudevp Candidate or Technical Sol-enceal 1. V. GunIns IngIneerl No Ta. DzuSatov, Candidate of 'technical Scienceej V. 0. Drozd, Candidate of Technicia Sciences; X. P. Yermolayev, RU-Ineerj 0. Me latonelveong Candidate or Technical Sciencelal X. V. Xov;mev, Rnginewri X. Yee JOugayonko, Ragineor; N. V. Litavchen1w, Candidate of Te6hnical or Technical Card 1,44 Authorst P. A. Jaeksandrov, Dootar of Technical Scienceal V. P. Anielforov, Candidate of Sciences; V. 1. Bayrakov,  golling Industry; Handbook SOV/6044 Sciences; V. I. KeleDhko, Candidate of Technical Solenceal N. V. 1-1ekhov, Ingineer; A. K. Ninburgp Candidate of Tech- nical Scienceej V. D. Nosovp Engineer; B. 1. Panchanko, Engineer; 0. A. Plyatokovskiy, Candidate of Technical Sciences; 1. S. Pobedins Candidate) or Technical Selenceal X. A. Ptiymk, Professor, Doctor of technical Sciences (deceasedj; A. A. Protasov, Engineer; N. H. Saflyan, Candidate of Technical Soleness) N. 14. Fedosov, Professor) S. N. Fillpov, Engineer fdoceased]l I* N. Filippov, Can- -didate of Technical Sciences; 1. A. Pomichev, Doctor of Technical Sciences; K. Yu. Shifrin, Candidate of Technical Sciences; E. R. Ahor, Candidate of Technical Sciences; X. 14. Shternav, Candidate of Technical Sciences; U. V. ,Shuralev, Engineerj I. A. Yukhvets, Candidate of Technical Sciences; Edo. of Publishing Mouse* V. R. Goroblnchenkop R. U. Oolubohiks and V. A. Rymov; Tech. Ed.s L. V. Dobuxhinekaya. PURPOSE: This handbook I& intonded for enginearing personnel of metallurgical and machine-building plaDta, scientific "search Card 2/14  Rolling Inductryj Handbook Institutes, and planning and design organizations. It may also be used by students at schools of higher education. COMAM Volume 2 of the handbook reviews problems connected with the preparation of motal for rollinr,,tho quality and quality control of rolled products, and designs of roll passes In merchant mills. rMe following topics are dis- cuscods procossoo of manufacturing vedifinishod and finished rolled products (the rolling of blooms, billets, shapes, boama, rails, strips, uiro, platos, sheets, and the drauing of steel wire), hot-dippod tin Plater., lacquered plates, floor plates, tubes made by different methods, and special types of rolled products. Problems of the organization of rolling operations are reviewed# and types of rolled products manufaotured In the USM are shotm. No pVruonalities a" mentioned. There are no references. TAME OF CORMWS Abridged t) t Card 3/14  Rolling Industry; Handbook SOV/6044 Helical rolling in a three-roll mill 447 Helical rolling in a mill wi.th rotating disk guides 451 Ch. 52. Manufacture of Tube in Units With Filger Nills (0. A. Plyatakovskiy) 452 Ch, 53, Manufacture of Welded Tubes Q(Yu. 14, Matveyev),") 477 1, General part 477 2. Furnace welding 477 Resistance welding 487 Submerged are welding 497 5, Gas-shielded arc welding 502 Ch. 54, Finishing Df Tubes (~!u. M. Hatv*7e'#)" 507 Part X. Manufacture of Special Types of Rolled Products (S. N. Filipov) 519 1. Development of die rolling 519 Card 9/14  MkTVMV, Yu.M., kand.,teldm,nauk; KRICHEVSKIY, Ye.M., inzh.; RIMOV, V.A., fiFZK.- Speed conditions on continuous electric pipe welding machines, Stall 22 no.2:14&152 F 162. (MIRA 15:2) 1. Gosudarstvennyy coyuznyr institut po proyektirovaniyu metallurgichaskikh 2avodov :1 MookovskLy trubnyy zavod. (Electric welding-EquiFmant and supplies) (PLPD-Welding)  S/133/62/000/011/002/005 A054/A127 AUTHOR: Matveyev, Yu. M., Candidate of Technical Sciences TITLE: The Soviet tube industry during 45 years of-Soviet regime FIMIODICAL: Stal', no. !1, 1962, 1021 - 1025 IMT: The article gives a brief survey of the quantitative development of the Soviet tube industry between 1917 ard 1962. There are also comparative data with regard to the tube industry of' the United States and some European countries. The average annual growth of' Soviet tube production was 11% in the . k f955 - -.960 period, whereas the increase of world tube production was only 1.15% eD an average for the same years. In the general Soviet dLavelopment scheme of t4ps a certain iag can be observed as to the production of thin-walled water- ar4.gas pipes. The production of welded tubes has been strongly promoted i6 recent years. A description and a figure is given of a tube welding mill, on yihfoi the welding process takes place ,,ontinuously in a furnace (f-r tubes 20 60 ivn in diameter and 8 m long). This new equipment (wh1ch turns out tubes at a 160 - 420 m/min rate) works as part of a continuous production line including CLrd 1/3  S/133/62/000/011 11002,1CO5 The Soviet tube'industry during ... AC5)VA127 thE welding, reducing and calibrating unit!;. High-alloy and stainless steels arE electrically welded by argon-are welding (on the 10-60, 10-76, 20-1C2 types). ThE-se units feature a special ultrasonic device for degreasirku, the strip. Pro- mif,ing results are expected from the electric welding of stainless tubes by ra(iiofrequency currents. This mothad yielcis tubes with a higher corrosion re.. si!;tance and has an output 20 times hij,~-ier than that of argon arc woldir*,r. Tile Zhdanovskiy metallurgicheskiy zavod im. Illicha (Zhdanov Metallurgical Plant im. Illich) produces tubes with spiral welding (seams on both sides). ~~is me-;hod is economical mainly for tubes with diameters less than 920 mm. Trans- po--table-spiral tube welding machines are produced for making tubes on Lhe site wh~are the pipe system will be-installed. It detailed description is given of a ,,u:)e mill for producing seamless, hot-rolled 29 - 102 mm diameter tubes with a 1.75 - 8.0 uari wall-thickness (at the Pervourallskiy novotrubnyy zavod [Pervou- rallsk New Tube Plant]), the output end of which has been specially designed by VNIIMETVIASh, ensuring the accurate centering of the rod and tube blank during broaching. In the Nikopollskiy Yuzhnotrubyiyy zavod (Nikopollsk Southern T~ibe Plant) two workshops have been equipped with mills that.produce tubes by hot rclling from high-alloy steels and other metals. The new tube mills aLre highly Card 2/3  S/ 133162,1000101 . 1/002/005 The Soviet tube industry during... A054/A:27 mechanized and automated. Tube drawing milla are being desigred for the simul- taneou5 drawing of 2.3 or 5 tubes. The draw:1.ng rate on these up-to-date mills '(with lengths up to 25 m) attains 100 - 110 tcVmin. Research is being carried 'out to improve the anticorrosive coating (viryl plastics, polyathylene) of tubes ~,nd to develoo substitutes for the expensive high-alloy and copper tubes. There Is :. figure. Card  SHEVAKIN, leffly Fedorovich; HAT)%IEV Yti.M ,_ red.; RYMV, V.A. , red. lad-im; DDBUZHIESKAYk,, L. V. t te)U. rod. [Groving and forces in the cold rolling of pipe]Kalibrovka I usillia pri kholodnoi proketke trub. Moskva, Metallurgizdat, 1963. 267 P. (MIRA 16:3) (Pipe mills)  SHUBIK ILA.., inzh*- FRIM S.A.2 lnlh,; RDZWELID,, N.B.9 Inzh.; MTM; u.ya,., .V .4 0 inzb6; HANEY -, doktor- tekhn.nauk Pre&clmg tubes of economical section on pilger mills. Stall 2-3 rr,.4. 346-348 Ap 163. (1,11rLA 164) Urallskiy wwchno-issledovatellskiy trubnyy institut i Chelyabinakiy truboprokatnyy zavod. (pipe MMS)  MATVEYEV., Yu.M.j, doktor tekhn.nauk Review of A.F. Cdiekmaret and IA.L.Vatkin's book rolling in round passes." Stall 23 no.7:641-642 l.Ur&3MITI. (Rolling (Metalwork)) (Pipe mills) (Chekmarev, A.P.) (Vatkin, IA.L.) nPrinciples oj'L pipe Jl 163. (MIRA 16:9)  14ATVEYEV, Yuriy Mikdmylovich; AGRE, Valentin Llvovich; VATYMNI, Yuriy Yakovlev-:Fcb,--M1CHEVSKIY, Yovgeniy Markovich; RYMOV, V.A., red. [Welded pipe; workers' handbook] 3,varnye truby; spravochnoe rukovodstvo dlia rabochikh.-.1-Moskma, Izd-vo "Metallurgiia," 1964. 188 P. - (MIRA 17:5)  I N C L ED r Y-TILOSS, Al V ------- qg~ -000 00,0, ~j~ Vt, - THS i '0 R gg-q, TW:73- "Mw z- 4 ut agg av W9 q go F M Z, : - Vtzi B M qp~ -W V - w MORMINN 0 - _9 - 3~r Mm WA MV Ann M-NAMMOMPA ---- zt ti     MANEYEV,a-114M., doktor tekhn. nauk; LAVROV, P-P,j, kand. tekhn. nauk Effect of supporting and pulling on the process of t-abe rolling on long mandrels. Stall 24 no.1:58-.62 Ja 164. (MIRA 17:2) 1. Gosudarstvennyy soy-uznyy institut po proyektirovaniyu Metallurgicheskikh zavodov i Visesoyuznyy nauchno-issladovatell- skiy I proyektno-konstruktorskLy institut metallurgicheskogo mashinostroyeniya.  ,-,, ^ TV, y C) , ,- . , . I ,.. - . - I 11 - ;.:~ j f, - !, . -.~, ; I ". " .; . ~! ~ :; - - , t ~- ", , ~-. i : - , I . 1 4r r ., f 1 t ~ 'I . :I L, !, it ~ Y~ * ~ ; 1 1 . ", , ~ 1, . I-, . , . . : -', 1~ :-, " - , -, i,. i : i  KHASIN., G.A.; DAVIDYUK, V.N.; FRANTSOV, V.P., inzh.; IKHITRIK, A.I., inzh.; MATUAW, Yu.M.; VARNAVSKIY, I.; R!SYUKOV, N.; ZHURAVLEV, S. ~, I New developments in research. Stall 24 no.10:880, 898 909, 91?, 930, 942, 946 0 164. WRA 171l2)  DANILOV, F.A... SFVEDCF6Nh;.), A.A.; MATVEU-V, Yu.M.; TSELIKOV, A.I. Arteries of industry. Metallurg 1D no.9:38-39 S 165. (MEU 18:9) 1. Direktor Pervourallskogo novotrubnooo zavoda (for Danilov). 2, Direktor Ni.kopollsko,go yuzhnotrubnogo zavoda (for Shvedchenko). 3. Direktor UrEL11- 5kogo nauchno-issiedovatellskogo trubnogo instituta (for Matveyav). 4. Vsesoyuznyy nauchno-issledovatellskiy i proyektno-konstruktorskiy institut metallurgicheskogo mashimostroyanlya (for TSelikov).  YERMOLAYEV,, N.F., i.nzh.; GONCHARENKO, V.; MATVEYEV, Yu.M.; YEWL'YANOV, A.V., kand. ekonon. nauk; SPIVAK, E.I., inzh. Book reviews. Stall 25 no.7:640-&~2; 65q-663 Jl 165. (MIRA 18:7) 1. Chelyabinskiy politekhnicheski3r institut i UralNITI (for Goncharenko, Matveyev). 2. Institut chernoy metallurgii v g. Dnepropetrovske (for Yemellyanov). 3. TSentroenergometallurg I 'for Spivak).  UMMOV, V-; 10","HIIISM, M.B.; BLATIST, A.I.; IOSSELI, G.; KGROLEV) M.; V.1- ARONOV, I.; SV`FTLAKGV, V.; ZAYONCHIK, L.Z.; RASPOPM, I.V.; SERDYUKOV, G.V.; GRISHKOV, A.I.; W.MEV, II.F.; DELLO, A.A.; SfTW41IAYA, V.A., inzt..; SPIRYAGIN, L.P., inzh.; GRISMN, A.I.; Y-A-RDONOV, B.k.; BURDIN, V.H., kand. tekhn. nauk; MOLGACHEV, D.A., inzh.; NIUZALEVSKI'Y, O.G.; EI%IKIN, A.A.; KEYS, I%V.; KORISSAROV, A. I. New developments in research. StIL11 25 no.8:842-845 S 165. (MIRA 18:9)  )9T_Y9U,_1u.H.,,doktor tekhn. nauk; VYJ*)RlN, V.N., doktor tekhn. nauk,, FINKELISHTEYN, U.S., kand. ttekhn. nauk; KAUFW , M.M., kand, tekhn. nauk; GLEYBUG, A.Z., rand. tekhn. nauk; NOVIKOV, A.G,, inzh.; SITNIKOV, L.L., inzh.; NODEV, E.O., lnzh.; STOLETNIY, M.F.,inzh.; STERN, V.A., inzh.; FRIDMkH, D.S., inzh. Operating conditions and wear of mandrels on the continuous billet mill of a 30-102 pipe -rolling unit. Stall 25 no.10, 930-934 0 165. (MIRA 18.1-1)  :_284,90_66 SNP(k)Li~WT( n)/T/1-'.WP(v)/EWP(t)/ETI M/W ACC NRs AP6010135 SOURCE CODE: UR/0133/66/000/003/0245/0248- AUTHOR: Hot V, Yu* M. (Doctor of technical sciences); Grinberg, 2. A. (Engiveer)i Tolptikov, R. M. (Enjini-er); Gazmno S6 M. (Engineer) ORCI. none TITLE: Radio-frequeney welding og plano-ova). radiant-heating tubes 4OURCE: Stall, no. 3, 1966, 249-248 TOPIC TAGS: generator. metal tube, induction welding, power welding equipment, welding technology / LZ-107 -generator C~ 4#�WCT: 9wing to a technological breekthr ligh at the Fervourallsk Tube Plant in- duckio'n''welding of tubes of diameter smaller ithan 16 am is now possible on an in- duBtrial scale. The techniques of this welding are described here for the production of radiant-heating tubes from circular skelp cif 13.2 mm diameter, with wall thickness of 1 mm. A specially developed ferrite-core ring holder (Fig. 1) assuring a quick replacement of ferrite-core sets to employed: it in very simple to construct and It assures an adequate cooling of the ferrite cores during the welding. (The ferrite- core rings are used to increase current concentration at the skelp edges.) The Inter- nal surface of the ferrite core rings is cooled with water entering via a 3-MM diame- ter capillary tubule and the external surface, with the water filling the tube. The C,,d 1/4  ACC NR, AP6010135 Fig. 1. Ferrite core holder u0 -4 ~~M welding is performed at frequencies of 440 and .1000 cps (103 sec-1), on using a 100-k% LZ-107 generator. In addition a special welding.-machine table has been developed (Fig. 2) to assure fixing the position of the inductor with respect to the axis of welding rolls. The LZ-107 100-kw induction welding generator assures stable welding rates of 45-55 m/min (72-92 em/sec) and has a sufficient power reserve for increasing these rates to 60-65 m/min (100-108 cm/sec). The induction-welded plano-oval tubes thus obtained (Fig. 3) are greatly superior in quality to their resistance-welded counterparts and are highly prired by clients. Orig. art. has: 3 figures, 3 formulas.  ACC NRs AP6010135 co JA v4 cc p - t 4) ILI tic 10 r. 0CD 9x au -4 Card 3A  ACC NR'AP6010135 131 G Fig. 3. Roll pass profiles (roll stands I-III) for plano-oval tubes measuring 17.5x5xl tmi SUB CODE: 11, 13/ SUEM DATE! none/ ORIG REP: 002 4/4 C  CHEKMAREV, A.P., akademikj nauchn. red. ; BORISOV, S. 1. , doktor tekbn,, nauk, nauchn, red.; MATMEII, U.N., doktor tekbn. naukq naucbn, redo - ------ --l-11-7--, , [Technical progress of the pip3 industry] Tekhtdcbeskii progress T ta-abnom proizvodstvs. Moskrap Metallur is., 1965. 263 P. (MIRA 18:7f 1. Akademiya nauk Ukr.SM (for Cbelmarev).  I ktor teklin. nauk; RUZHINSKIY, M.B., inzl~.-, FLAT'IFY--7 --1 ao I .-e., inzh.; UTUFTSOV, Y-II.Ye., in?h. M.qstering the production of pipe by inductior, a- Novosdbirsk metallurgical plant. Stall 25 no.3-.24~--~51 Mr '~5. (VIPA 1,3-~,  7"6 Mw ii -~"Ijpf 'Nlh AP601* (Koki 0m Arvm/64/0755/0759 t E'~  77777777777~: -jkiri not tbo im* .... .. lc -me" an lit Lil vie di"etioulo urm nmbm, tow id ow 0 t to!'In" _Lisp Vv- t d by to 0 r s~ 0*168, 1961) VM  VRDM, B.I., dots,, kana. tekhn, nank-, WWM---x Th I h, Imestigating Phase eqaIllbrium in the tungsten - niobium system. Sbor. Inot. stall no.38:420-42,6 15B, (XIU 11:8) 1, Kafe&ra metallografli Hookovskego Institute, stall im, Stalina. (Phase rale and eqailibrium) (Tangsten-nioblum alloys-Wtallography)  Problems in the theory- ot-cry-stal growth In metal systems. Probl. metalloved. i-,f:Lz. met.-no.8:269-4W, 1164. (WRA 18:7)  Ri 5 AT300192 03012 Z/0'001000/02-79/028-1 v 'V T Dukhtns 'A. "Matv"!iyi Yu Ye. 0 ~.-AUTHORS: Bokii the. m 'chinfsm'of th 7 1TITLE: on e growth a 'r kh d ]p -,,SOURCE: ristallizatsiy. Izd'vo AN. BSS i faz6vyye'pp P. o Y., 1962, 279-28 4. ---:1TOPIC TAGS: crystal, crystallization, cryn'tall h in ograp,y, a gle-component, binary, Sr phase discontinuity, boundary~ H& Cd, K, q Z %.:;1% gra-wth, phase diagraM, ~'-~~equil'ibriurrij kinetic, solidus, liquidus ABSTRACT: The er discusses an expression for thilrate of the displacement pap of ' I nar phase -~dis continuity boundary during the. crystallUation (CR) of a single-, apa l a4w gene rally, adopted by niim_~eroif aui~ors--(&V example., O.Z.!_'_!'. clon~*inent substai a ."jantsch, Kristallographie, -v.108,' 1956., 18t),- an expressiofi-which has an 6xtremel)r, :,:general character and may be employed in the description oif CR from a vapor, a -solution, or a fusio5ril also in the theory of phase,transformations i onlids, and I even in-the theory of spiral growth. L It is noted that as yet th4 are no depend-~ !able experimental-4ata on the measure-ment of the supercooling on the surface of growing crystals. Among all the tests surveyed the author decries -the absence of Card 1/ 3  L 19391-63 ACCESSION NR: AT30019ZS .;even a single idenivication of a opecific dqgree of supercooling- however, some -boun, _�"~bQ'~nd klidere :upper d estimkfes of its value for growing crystals of ;Obtained in referen"cod test reports. Litera'~uri on the calculation 'of the density of' _..:~growth points, an e's"sential parameter in the' understanding of the growth of metal-; Ilic crystals, both a 'fq?r spiral growth (for isol ted spirals) and for growth- on two- idimensional nuclei,is cited. IL Whereas the initial equation given determines the ;.rate of growth*of a single -component liquid substance fora given degree of superi. e cooling, a separaW~iscussion is made of'the analogous problem on the magnitude -..of the rate of displa" eiment of the phase-dis continuity boundary in a binary system c iunder a specified de'vi-ation of thei state of the systemfrom an equilibrium state. The expressions qbtained give rise to nonequilibrium phase diagrams in a tempe rature-vs.-6o*m-position coordinate system. A plurality of ouch diagrams de- termine s the kinetic a of the CR of the alloy under different conditions. It is shown' 'that the *system of.equations obtained is in effect analogous to the first kinetic equation obtained for the single -component iubstance, except that in the binary system the rate of'g-rowth of a given' phase is determined by two kinetic coefficients. 'In measurements m de of the temperature (T) along the CR front in the systems IP rs obser~rcd a displace ant of the T,at,the beginning Sti _~2nd irk b e autho rn C, 0 e 0 f the alloys (counuid"frorn the liquid~s)_Ahat Is proportional' t: 1: d M c tot the' rate of. g t and the, oncentratibri"6f dm second.'compoften au W ch 6rd ~2/3.:_  W=U#p MEMO t L' 19301-63- iACCESSION XR: AT-30VI925 bunts.to-ajew egrees. 3~-S mm/ 4o In coilclusion it is' n growth A a -5 C*' M notedthatIA mon iffusional CR of a46ye th46:(11R_ of, thei liquad. iroceibds always~ with -a change in coz~il~6iitibzl, even whiin- the staie ot the eryut&1Uz1hS~-&1L6y Is deter- i-ed bya representative point that-lie Velp the 2 tw Molidus,of the equilibrium. , ri a" p4~ate- diagram., -0r4. aiu!:has 11*0 6~ 40_MdOiN SOMATA -60, 6A~A3 SUB-COM CH '4, ij ;i4 2, Card 3/3  I f L-:A  il. W, 1.17., MATYSMAl AA,-. ZVORYKINA, K.V. I Oak Differenceb in the dervelopmeint oe vftvtation in stands of early and late form of oak. DokI. AN SSSR 83 no. 1, 1952 2 Sol Liat of Russian Accessionap Library of Congreno, Awgust 19% uncl.  USSR/Forestry -.Tree Biology and Typolo(!y. K. Abs. Jour Ref,-Zhur - Bio14, No-21, 1958, q$814 Author MatvOyevn, A.A. List Forest Institute AS - USSR Title Grass 'Cover of Uniform Cutavers and Its Influence on Reacowal of Tree Species and Oak Plaxitings in the Boriso- glebskiy Forest Block. Ori.5, Pab : Tr. Li-ta lesa Xi SSSR, 1957~ 33, 146-165- : Observatimis conA-ucted oi:, the development of the grass cover on alearinCa~ 50 mia. 100 Li in wid-va showed that a more.intensive development of sprouts and shoots of tree and shrub species occurs on Inarrow clearings, and the fo- rest C;rasses are pre-served. Grasses adapt vell to oak plantinas. When young oaks are not m-re than 1-2 years old, ' t1he Grasses shai:ad be weeded out a distaace of 3o-40  UIN-EIVAs A. A. HAVEMA, A. A. -- "The Lower Coal Depoatta of the Faleogeological Period in the Minusinsk Hollows." Acad Sci U35R, Faleontolo&4cal Inst, ,4oscow, 1956. (Dissertation for the Degree of Gandidate of Biological 3ciences) SO: M?.hnayL-j&touLS' No 44, October 1956  ,Mk?UYBVA. A.A. -- " P&IMOnIfcId&9 Of the I)Ystriaidd series in the Himalusk Bagin. Blul.RDIP-Otd.geol. 32 no.1:127-128 ja-F 057. (MLRA 10:5) (Mizusinak Basin-Fisheq, Fossil)  X&TV373YA, A -A.-. Phla~evxlscldae from the Isyk-Ghtill horlsom of Minusinsk lowland. Vop. Ikht. ne.11:154-161 158. (NIRA 12:1) 1.Phleentelogicheekly Institut L19 SSSR. (Minusinsk lowland-Fishes, Fossil)  GOVOROVP I.N.; STUNZHAS, A.A.; MATUYLVA, A.A.; BLhGODAREVA, N.S.; MhRTINA, R.I.; TOLOK, Forms of the transportation of beryllium in alkali mineral- forming solutions. Soob. DVFAN SSSR no.19:39-45 163. (MIRA 17:9) 1. Dallnevostochnyy geologicheskiy institut dal*nevostochnogo filiala Sibirskogo otdeleniya AN SSSR. jo 1w  BUROV, V.SN IMTOMAI-AtA. [Vktvieieva, AJQ; KOXHALEVICH, R.I. NDkhalewych, R.I.] Block tectonics of the border of the external zone of the Carpatbian piedmont fault between Ivano-Frankovek and KolozVyag Dop. AN MSR no-3:365-369 164. (WRA 17:5) 1, Inatitut geologii gor7ucbikb i&opayMkh AN UkrSSR. Predstavleno akademikom AN UkrSSR O.S. Vyalovym6  IMA-MEYETA-1 A. D. USSR/PhyBics - Combination Scattering Chemistr~y - Organic Comp~,unds Ar:r 50 "Study of the Degree of Oxidation of Certair Alcohols and Fhenols by the Method of Combination Scattering of Light," M. I. Batuyev, A. F. Meshcheryakov, A. D. Matveyeva, Irst of Org Chem, Aced Sel USSR, 5 pp "Zhur Eksper i Teoret Fiz" Vol XXV No 4 Shows by s ubject method that increase in degree o,.' oxidation of QH group JAn a sorles of alcohols (pentometbyl ethanol., phenol, triclilorodime-thyl ethanol) 17 In complete agreement with chemical data. Submitted 8 Jan 50. PA 159T96  41011y) P-P In pit hatorv ano# Kbeow~ Nauk 1931, cf. C.A. 44, 2MIM, L%Ao,w of r,kw vilawtioun Itegumit award, %ith thmi, (III gitop its thy Ib1tv vl4.wm .4 aleV, olool dird I It, M, I... llavs.* ki-vioulit -little eman-Vas. A.ool Ott, it,-, thr 11.1141 trawd ftw so~idw Willi ILA.M. lit-likilh, of Ifir Alo~,v. willitoxit rrxod low III- utoAt-sovIr III [fit- oil; 4., 10-IL.V,r A. .0 ra"firaL N ..... th'. 'tal.. - R.41-1. .ja~ it., ..Itlw "t- it i, tor."Itly ."o thil III,. t.60-s., ... I wro watUrsole 94 The 1111 111alp 14 flilf alrom. strit-lily live* In g4mwos fivalt Ito 6twity lot tom"Vilars, stmi triolUty flows. The ~wrvi,- mo",t costs Iw ettroilvil 11) *1110 ballifts and melr- etAptalsit. It Mert"or" to orellectiolo, of data an spreirm ood thetmomwivilarnic rumsis. of 010 mvkpis. site cited. TV* O-11mvartrii.lie line low all Inimarr mks lk% M ZXM' em -'. low M.".MVIAVY so". *1:2 orm.-I. Ark) f.w switiary a" at JOIA Cos. -0 (o. Wt. K'wV14j%)ff  WrVEY461114, II.P. SHOSTAK011SIM, M. F. BATUEV, M. 1. - TIUPAEV, P. V. - MA A- 12. Oxonium Ckonium theory and its optir-al substantiation on simple vinyl ethers. DDkl. AN SSSR E~) no. 1. 1953 9. Monthly List of Russian Accessions, Llbrar~r of Congress, KV -1953. Unclassified.