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2 (42) June 2013 The magazine is included in the list of russian reviewed scientific journals and publications, in which shall be published by the basic scientific results of dissertations on competition of a scientific degrees of the doctor and candidate of sciences, as well as in the database Russian index of scientific citation (RISC) and All-Russian Institution of Scientific and Technical information. Internet versions of the journal can be found on the Scientific Electronic Library site in the Internet.
PUBLISHED SINCE MARCH, 2003 Editorial committee Chairman of editorial committee: V.M. Kolokoltsev – rector of FSBEI HPE «Magnitogorsk State Technical University named after G.I. Nosov», D. Sc Members of the editorial committee: A.V. Dub – general director of JSC Research and Production Association of Central Scientific Research Institution of Technical Mechanic Engineering, D.Sc. D.R. Kaplunov – corresponding member of Russian Academy of Science, D.Sc. V.Ph. Rashnikov – President of LTd «Magnitogorsk Steel and Iron Works managing company», Prof., D. Sc. V.M. Schastlivtsev – chief of laboratory in Russian Academy of Science , academician of Russian Academy of Science, D. Sc. I. Gorlach – PhD in Mechanical Engineering, Head of Department of Mechatronics, Nelson Mandela Metropolitan University. Ken-ichiro Mori – Professor Department of Production Systems Engineering, Toyohashi University of Technology, Japan.
Henrik Dyja – prof. Dr. techn. Science, Director of the Institute of Metal Forming and Engineering Security, Poland. A.B. Nayzabekov – Member of the Academy of Sciences, Prof., D.Sc., rector of Rudnensk Industrial Institute, Republic of Kazakhstan. Editor-in-chief: M.V. Chukin – Prof., D.Sc. First deputy chief editor: G.S. Gun – Prof., D. Sc. Deputy chief editor: A.G. Korchunov – Prof., D.Sc. Executive editors: M.A. Polyakova – Assoc. Prof., Ph.D. M.V. Shubina - Assoc. Prof., Ph.D. Editor: N.V. Kutekina. Technical editor: G.N. Lapina.
© Federal state budgetary institution of higher professional education «Magnitogorsk State Technical University named after G.I. Nosov», 2013 Subscription index 48603 in the common catalog «The Russian Press» Volume 1. Also subscribe on-line can be issued and paid in the format you require a subscription page on the Agency's website «The Book Service» at: code html: Registration certificate PI FS11-1157 on April 18, 2007 Issued by the Federal Service for Supervision of Legislation in Mass of Communication and Protection of Cultural Heritage in the Urals Federal District. Founder – State Educational Institution «Magnitogorsk State Technical University named after G.I. Nosov» (455000, Chelyabinsk Region, Magnitogorsk, Lenin Avenue, 38) 16+ in according to a Federal Law 29.12.10. 436-FL Editorship address: 455000, city Magnitogorsk, Lenin Str. 38 Phone number: (3519) 22-14-93. Fax: (3519)23-57-60 URL: http://www.vestnik.magtu.ru E-mail:
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Prepared for publication by publishing center of MSTU named after G.I. Nosov. Printed in the Printing MSTU Area Signed for press 2013.06.20. Order 364. Circulation – 500 items. Free price.
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CONTENT Mining. ..................................................................................... 5 Mazhitov A.M., Mescheryakov E.J. Definition of parameters and indicators adaptive version of the system design with area-butt release for the conditions of working off flat deposit................................... 6 Melnikov I.T., Zalyadnov V.Y., Shevtsov N.S., Pavlova E.V., Pogorelov A.Y., Smyatkin A.N. Automated calculation of slope stability of pit walls ............ 8 Vagin V.S., Kurochkin A.I. Alignment of dynamic loadings mobile pass elevating installations with unreducer high moment a hydrodrive ................................. 12 Osadchiy V.I., Maulyanbaev T.I., Kuzmin S.L. Design technologies and exchange of containers on the lifting points............................................................. 16 Processing and Utilization Technologies of Formations and Wastes .................................................... 19 Rylnikova M.V., Emelianenko E.A., Angelova E.I. The effectiveness of the technical lignosulphonate leaching stale wastes from copper pyrite ores .................... 19 Bikbaeva G.A., Orehova N.N., Kulikova E.A. Clinker application in complex treatment of technical sewage of mining and metallurgical facilities..................... 22 Pressure Treatment of Metals .............................................. 26 Vdovin . N., Petrov I. ., Pozin . Measurements of CCM moulds narrow walls wears .................................. 28 Pressure Treatment of Metals .............................................. 29 Korchunov A.G., Bigeev V.A., Sychkov A.B., Zaitsev G.S., Ivin Y. ., Dziuba Y.A. Improvement of the rolling coils steel 80R in JSC «MMK»..................... 29 Kolmogorov G.L., Kobeleva E.K., Snigireva M.V., Chernova T.V. Energy-power characteristics at drawing threemetal billet ................................................ 35 Slavin V.S., Brichko A.G. Methods of analytical description of deformation zone geometry during reinforcement wire-drawing in the groove with offset rollers pairs ............................................................... 37 Naizabekov A.B., Talmazan V.A., Erzhanov A.S. Simulation burnishing of superficial defects of the «pin-hole» type in cold rolling using computers ...... 44 Kalugina O.B. Numerical solving task of optimization shape of exhaust break-down pass ...................................... 47 Technologies of Material Processing .................................... 50 Belevskiy L.S., Belevskaiy I.V., Ephimova Y.Y. Restoration of dimension and form of part by combined treatment ....................................................... 50
4
Kolenchin N.Ph., Kuskov V.N., Safronov A.V., Shadrina P.N. Ozone and ultrasound influence on forming and properties of anode coating on aluminum and its alloys ................................................. 52 Material Science and Thermal Metal Treatment ................ 56 Golubchik E.M., Kopceva N.V., Meshkova A.I., Efimova J.J., Nikitenko O.A., Medvedeva E. . Effect of annealing on microstructure and properties of welded joints produced by laser welding of low carbon steel strips .................................................... 56 Koryagin Yu.D., Okishev K.Yu., Sozykina A.S. Estimation of carbon content and heat treatment ef-fects on phase composition of chromium-vanadium cast irons ...................................... 59 Zagirov N.N., Ivanov E.V., Kovaleva A.A., Anikina V.I. Peculiarities of structure and properties formation of hot pressed rods from leaded brass friable chips ............................................................... 68 Modeling of Metallurgical Processes .................................... 69 Moshkunov V.V., Stolyarov A.M., Kazakov A.S., Bulanov L.V., Yurovskiy N.A., Cheremisin D.D. Mathematical simulation process soft redaction slabs of continuous casting tube steel ................................. 72 Power Supply of Metallurgy, Energy Saving and Heat Power...................................................................... 73 Zh.I. Kuzbakov. Reduction of dynamic loads from the drive the jaw crusher for crushing highstrength materials ................................................................ 73 Zaslavets B.I., Malafeev A.V., Yagolnikova E.B. Decrease in tariffs for electric power transfer at the expense of compensation of jet power ...................... 75 Economics, Management and Production Market .............. 81 Latfullin R.R., Vasileva N.F. Features logistics in metallurgical holdings .................................................... 81 Oder D.E. Strategic planning in the field of productivity and economic growth in Russia ............................................................................. 85 Akshentsev F.I., Trilyev A.E. Improving the system of wage drivers of the car in the underground mine of Sibay............................................................................... 87 Kuzina G.V., Usmanova C.F. Algorithm development commercialization of innovation ................... 91 The information about the authors ...................................... 99
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INFORMATION ABOUT THE PAPER IN ENGLISH
DEFINITION OF PARAMETERS AND INDICATORS ADAPTIVE VERSION OF THE SYSTEM DESIGN WITH AREA-BUTT RELEASE FOR THE CONDITIONS OF WORKING OFF FLAT DEPOSIT Mazhitov A.M., Mescheryakov E.J. Abstract. Carried out the researches of the basic regularities of the release of ore and substantiation of rational parameters and application areas of the system design with area-butt release of ore in relation to the fat deposits. Modeling of release of ore was made with account of design and technological features of application of area-butt technology of ore in conditions of shallow ore bodies. As a result of modeling are determined the parameters and indicators of the system of development with area-butt release of ore. Keywords: Design system, area-butt release, the collapse of ores, modeling of release, equivalent materials, end production, losses, dilution.
.
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. 2013.
2
References 1.
2.
Meshcheryakov E.Y., Mazhitov A.M., Lutfullin R.R. Sovershenstvovanie sistemy razrabotki s obrusheniem v uslovijah pologopadajushhih rudnyh zalezhej. [Improvement of the system design with the collapse in gently sloping ore deposits]. Kompleksnoe osvoenie mestorozhdenij poleznyh iskopaemyh. [Integrated development of mineral deposits]. Magnitogorsk: Publ. Magnitogorsk State. Tech. University named after G.I. Nosov, 2012, . 91-94. Neverov S.A. Obosnovanie tehnologii podjetazhnogo obrushenija s ploshhadno-torcevym vypuskom rudy v uslovijah moshhnyh
———————————————————————————————————
7
3.
4.
krutopadajushhih zalezhej. Extented abstract of PhD dissertation. [Justification sublevel caving technology with area-butt release of ore in powerful steep deposits]. Novosibirsk, 2006, 22 p. Mecsherykov E.Y., Ugryumov A.N. Geomehanicheskoe obosnovanie oblasti primenenija sistem razrabotki s obrusheniem rud i porod pri osvoenii mestorozhdenija «Chebach'e». [Geomechanical substantiation of a scope of systems of working out with a collapse of ores and breeds at development of deposits]. Vestnik Magnitogorskogo gosudarstvennogo tehnicheskogo universiteta im. G.I. Nosova. [Vestnik Magnitogorsk State Technical University named after G.I. Nosov], 2009, no.3, . 8-11. Zaharov V.V. Issledovanie mehanizma i parametrov dvizhenija rudy pri vypuske iz ochistnyh blokov. Extented abstract of PhD dissertation [Investigation of the mechanism and motion parameters of ore at release from treatment units]. Moscow, 1966.
5.
Witkowskiy I.I. Oblast' primenenija variantov sistem podjetazhnogo obrushenija s torcevym vypuskom pri razrabotke slozhnyh rudnyh tel. [Field of application options sublevel caving systems with mechanical issue in the development of complex ore bodies]. Perspektivy razvitija rudnyh mestorozhdenij: tez. dokl. [Prospects of ore deposits]. Moscow, 1985, pp. 13-14. Kuznetsov P.A. Opredelenie masshtaba modelirovanija. [Defining the scope of the simulation]. Moscow, 1964. Yurov A.A. Obosnovanie parametrov i porjadka ochistnoj vyemki s uchetom neravnomernogo raspredelenija poleznogo komponenta po moshhnosti rudnoj zalezhi. Extented abstract of PhD dissertation. [Substantiation of the parameters and the procedure of the treatment of excavation with the account of the unequal distribution of the useful component for the power of the ore deposits]. Moscow, 2005, 105 p.
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INFORMATION ABOUT THE PAPER IN ENGLISH
AUTOMATED CALCULATION OF SLOPE STABILITY OF PIT WALLS Melnikov I.T., Zalyadnov V.Y., Shevtsov N.S., Pavlova E.V., Pogorelov A.Y., Smyatkin A.N. Abstract. When designing the pits, dumps, tailings have always topical task determine the optimum parameters of the slopes of mining structures, providing efficiency and safety. The traditional way to solve the specified problem involves time-consuming graphic-analytical calculation, which requires one to several days of works. Employees of the department «Open working exploitation of mineral» Magnitogorsk State Technical University named after G.I. Nosov created computer program, in which the finding of the minimum safety factor is produced by choosing the least stable sliding surface array studied by multiple calculations in a few seconds. The results of calculation of the minimum safety factor graphoanalytical traditional method and with the help of a computer program as an example Sibai open pit. Defined convergence of results, which is 98-99%. With the help of the provided computer program can solve a wide range of applications with significant time savings. Using the program is possible to solve the direct problem - determination of the minimum safety factor by the given parameters of the slope and the inverse problem - finding the height or angle of repose for a given coefficient of stability, given the strength characteristics of the rock. Program makes it possible not only to determine the parameters of benches and pit, but dumps, tailings dams, railway embankments and other breeds with the characteristics of the base, which is formed by the construction of mining. Keywords: parameters pit board, the safety factor, the automated calculation of stability, the computer program Gavrishev S.E. Organizacionno-tehnologicheskie metody povyshenija nadezhnosti i jeffektivnosti raboty kar'erov: monografija. [Open mining enterprises reliability and efficiency organizational and technological methods]. Magnitogorsk: Magnitogorsk State. Tech. University named after G.I. Nosov, 2002, 245 p.
.
.
. 2013.
3.
4.
5. 6. 7. 8.
References 1.
2.
2
Osintsev N.A. Bezopasnost' transportno-tehnologicheskih processov otkrytyh gornyh rabot. [Transport and technological processes of open mining operations safety]. Magnitogorsk: Magnitogorsk State. Tech. University named after G.I. Nosov, 2010, 115 p. Burmistrov K.V., Koloniyk A.A., Zalyadnov V.Y. Povyshenie jeffektivnosti razrabotki mestorozhdenij putem kompleksnogo podhoda k proektirovaniju otkrytyh i podzemnyh gornyh rabot. [Improving the efficiency of field development through an integrated approach to the design of open pit and underground mining operations]. Kombinirovannaja geotehnologija: masshtaby i perspektivy primenenija. [Combined geotechnology: scope and perspectives of]. Magnitogorsk; Uchaly, 2005. p. 38. Gavrishev S.E., Burmistrov K.V., Kidyev V.A. Ispol'zovanie preimushhestv kar'ernogo kombinirovannogo transporta pri otkryto-podzemnoj razrabotke mestorozhdenij. [Take advantage of career combined transport in open and underground mining]. Vestnik Magnitogorskogo gosudarstvennogo tehnicheskogo universiteta im. G.I. Nosova. [Vestnik Magnitogorsk State Technical Univeersity named after G.I. Nosov], 2010, no. 3, pp. 5-7. Guidance on the determination of the angles of ramps, slopes and ledges dumps built and operated quarries. Leningrad: VNIMI, 1972, 165 . Fisenko G.L. Ustojchivost' bortov kar'erov i otvalov. [Stability of pit walls and waste dumps]. Moscow: Nedra, 1965, 378 . Rules on the stability of slopes in the coal mines: approved. RF Gosgortekhnadzor 16/03/98. St.-Petersburg: VNIMI, 1998. 208. Melnikov I.T., Surov A.I., Zalyadnov V.Y. and other. Avtomatizirovannyj raschjot parametrov ustojchivosti otkosov gornotehnicheskih sooruzhenij. Svidetel'stvo o gosudarstvennoj registracii programmy dlja JeVM 2011613970 ot 23.05.2011 g. [Automated calculation of slope stability parameters of mining facilities. Certificate of state registration of computer programs 2011613970 from 23.05.2011].
———————————————————————————————————
11
9.
Magnitogorsk State Technical Univeersity named after G.I. Nosov], 2011, no.1. pp. 9-13. 10. Gavrishev S.E., Kalmykov V.N., Burmistrov K.V., Zalyadnov V.Y., Pavlova E.V. and etc. Ocenka ustojchivosti bortov Sibajskogo kar'era pri otrabotke zakonturnyh zapasov rudy. [Evaluation of stability sides Sibai career at working aquifer ore reserve]. Magnitogorsk, 2013.
Melnikov I.T., Kutlubaev I.M., Surov A.I., Melnikov I.I., Vasiliev K.P., Plotnikov D.P., Shevtsov N.S. Razrabotka metodiki opredelenija racional'nyh parametrov namyvnyh hvostohranilishh i otvalov vskryshi. [Development of methods for determining the rational parameters of reclaimed tailings and overburden dumps]. Vestnik Magnitogorskogo gosudarstvennogo tehnicheskogo universiteta im. G.I. Nosova. [Vestnik
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INFORMATION ABOUT THE PAPER IN ENGLISH
ALIGNMENT OF DYNAMIC LOADINGS MOBILE PASS ELEVATING INSTALLATIONS WITH UNREDUCER HIGH MOMENT A HYDRODRIVE Vagin V.S., Kurochkin A.I. Abstract. In article results of an estimation alignment properties unreducer high moment a hydrodrive mobile pass elevating installations are stated. Improvement of technical and economic indicators of work mobile pass elevating installations probably in the area of increase in their productivity, decrease in their massiveness and increase in durability of traction bodies and of some knots and details of hoist engines. However the productivity increase, in turn, causes of increase in trailer loading at traction bodies that causes substantial growth of dynamic loadings in elastic elements in transitive operating modes of elevating installation. One of ways of the decrease, constantly operating dynamic loadings of oscillatory character is application unreducer a hydraulic drive possessing alignment properties. But, nevertheless, hydrodrive possibilities at the big amplitudes of fluctuations of dynamic efforts are limited. To increase alignment properties of a hydrodrive it is possible to carry out at the expense of increase in factor relative alignment, by introduction of flexible feedback on dynamic pressure. Correction on dynamic pressure operates quickly only in transitive modes and does not reduce power parametres of a hydrodrive, but allows to change amplitudes of dynamic efforts in set limits. Keywords: pass elevating installation, unreducer a hydraulic drive, factor relative alignment.
.
.
. 2013.
2
References 1.
2. 3.
4.
Vagin V.S. Sravnitel'nyj analiz dinamiki peredvizhnyh prohodcheskih pod"emnyh ustanovok s asinhronnym reduktornym i bezreduktornym gidravlicheskim privodom. [The comparative analysis of dynamics mobile pass elevating installations with asynchronous reducer and unreducer a hydraulic drive]. Perspektivy razvitija gorno-transportnogo oborudovanija. [Prospects of development of the mining-transport equipment: collection of articles]. 2012, no. V2, . 63-67. Gamynin N.S. Gidravlicheskij privod sistem upravlenija. [A hydraulic drive of control systems]. oscow: Mechanical engineering, 1973. 260 p. Vagin V.S., Kurochkin A.I. Dinamika odnokoncevogo prohodcheskogo pod"ema. [Dynamics one-trailer pass lifting]. Gornyj informacionno.analiticheskij. bulleten’. [Mining informational and analytical bulletin], 2012, no.9. pp. 232-238. Vagin V.S. Tehniko-jekonomicheskaja jeffektivnost' primenenija peredvizhnyh prohodcheskih pod"emnyh ustanovok s bezreduktornym gidravlicheskim privodom pri prohodke vertikal'nyh stvolov strojashhihsja shaht. [Technical and economic efficiency of application mobile pass elevating installations with unreducer a hydraulic drive, at pass vertical trunks of under construction mines]. Vestnik Magnitogorskogo gosudarstvennogo tehnicheskogo universiteta im. G.I. Nosova. [Vestnik Magnitogorsk state technical university named after G.I. Nosov], 2012. no.1, pp. 10-12
———————————————————————————————————
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//
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INFORMATION ABOUT THE PAPER IN ENGLISH
DESIGN TECHNOLOGIES AND EXCHANGE OF CONTAINERS ON THE LIFTING POINTS Osadchy V.I., Maulyanbaev T.I., Kuzmin S.L. Abstract. Growth of quarry depth leads to an increase mileage dump trucks, is then violated ecological environment and increases prime cost of transportation. The article provides the necessity rational introduction of container technology on the open pit mining. For the implementation of this technology proposed to use as hoisting machine a walking excavator ESh-10/70. The development of technological schemes of conveyors exchange at the transshipment point is done. Keywords: container, lifting machine, walking excavators, mineral processing technology, the circuit of exchange, transshipment point.
References 1.
2.
Osadchy V.I. Pod"em gornoj massy v kontejnerah – perspektivnyj put' reshenija transportnyh problem na glubokih. [The rise of rock in containers – a promising way to solve the traffic problems on the deep pit]. Gornyj zhurnal. [Mining Journal], 2004, no.10. p. 84-85. Bitimbayev M.J., Zhunusov T.T., Kuzmin S.L., Maulyanbaev T.I. Obosnovanie parametrov peregruzochnogo uzla pri kontejnernoj tehnologii na otkrytyh gornyh rabotah. [Justification the settings for container transshipment node technology in open cast mining]. Vestnik Nacional’noy inzhenernoy akademii RK. [Bulletin of the National Engineering Academy of Kazakhstan, 2012, no.4, p. 51-56.
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INFORMATION ABOUT THE PAPER IN ENGLISH
THE EFFECTIVENESS OF THE TECHNICAL LIGNOSULPHONATE LEACHING STALE WASTES FROM COPPER PYRITE ORES Rylnikova M.V., Emelianenko E.A., Angelova E.I. Abstract. The paper presents the results of laboratory studies of sulfuric acid leaching of copper and zinc from waste recycling stale. Considered intensification of leaching, which is made possible by the use of low concentration of acid-modified komplesonom natural origin – technical lignosulfonate (LST). This reagent is characterized by nontoxicity, selectivity, availability, while improving the quality and quantity with minimal impact on the environment. Keywords: leaching, technological waste, technical lignosulfonate, natural chelating. References 1.
2.
.
. 2013.
4.
5.
Angelov V.A., Emelianenko E.A., Emelianenko M.M. Razrabotka sposoba formirovanija tehnogennogo obrazovanija iz hvostov obogashhenija medno-kolchedannyh rud s zadannymi strukturnymi harakteristikami. [Provide a method of forming technogenic education from the tailings of copper-sulfide ores with desired structural characteristics]. Vestnik Magnitogorskogo gosudarstvennogo tehnicheskogo universiteta im. G.I. Nosova. Vectnik of Magnitogorsk State Technical University named after G.I. Nosov, 2012, no.1, pp. 13-16. Angelova E.I. Materialy mezhdunarodnogo soveshchania “Novye tekhnologii obogashchenia i kompleksnoy pererabotki trudnoobogatimogo prirodnogo i tekhnogennogo syr’ia (Plaksinskie chtenia 2011). [Proceedings of the International Meeting "New enrichment and refractory complex
.
3.
2
6. 7. 8. 9.
processing of natural and man-made materials (read Plaksin 2011)]. Ekaterinburg, 2011, pp. 235-436. Rylnikova M.V., Angelova E.I. Innovatsionnoe razvitie i vostrebovannost’ nauki v sovremennom Kazakhstane: sb. statej mezhdunar. nauch. konferentsii. [Innovative development and relevance of science in modern Kazakhstan]. Astana, 2008, pp. 342-347. Emelianenko E.A., Angelova E.I. Materialy 69-j nauch.-tekhn. konferentsii: sb. dokladov. [Proceedings of the 69th Scientific Conference. Collection of the scientific works]. Magnitogorsk: Magnitogorsk state technical university. G.I. Nosova, 2011, . 49-52. Filippov A.P., Nesterov Y.V. Khimicheskaya tekhnologiya. [Chemical technology], 2001, no.5. Eccentrics M.I. Promyshlennoe ispol'zovanie lignina. [Industrial use of lignin]. Moscow: Forest Industry, 1972, pp. 61-89. Sapotnitsky S.A. Ispol'zovanie sul'fitnykh shhelokov. [The use of sulfite liquor]. Moscow: Forestry Industry, 1981, pp. 108-119. Grushnikov O.P., Elkin V.V. Dostizheniya i problemy khimii lignina. [Achievements and problems in chemistry of lignin]. Moscow, 1973. Vorobiev A.E. Nauchno-metodicheskie osnovy upravleniya kachestvom syr'ya v tekhnogennykh mineral'nykh ob"ektakh s ispol'zovaniem geokhimicheskikh bar'erov. Extented abstract of PhD dissertation [Methodological bases for quality control of raw materials in the man-made mineral objects using geochemical barriers], Moscow, 1996, 385 p.
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-
INFORMATION ABOUT THE PAPER IN ENGLISH
CLINKER APPLICATION IN COMPLEX TREATMENT OF TECHNICAL SEWAGE OF MINING AND METALLURGICAL FACILITIES Bikbaeva G.A., Orehova N.N., Kulikova E.A. Abstract. In some non-ferrous production companies after years of operating at low resource extraction levels the amount of mineral resources in industrial wastes became higher than in natural deposits to be developed in the middle term and technogenic waste waters metal concentrations in make the latter hydromineral raw materials. Combined utilization of liquid and solid wastes shows considerable potential. The underlying principles of combined processing include selective mutual enrichment of participating phases with various valuable components, component concentration in one phase due the accumulative ability of the solid phase or the leaching ability of the liquid phase. This approach has an integral economic and ecological effect. Keywords: copper, zinc, industrial wastes, processing, galvanocoagulation, technology.
4.
5.
6.
References 1.
2.
3.
Chanturiya V. A., Solozhenkin P.M. Gal'vanokhimicheskie metody ochistki tekhnogennykh vod. Teoriya i praktika. [Galvanic and chemical techniques of industrial wastewater treatment. Theory and practice]. Moscow, IKC «Academkniga», Publ., 2005, 204p. Solozhenkin P.M., Solozhenkin I.P., Topchaev V.P., Topchaev A.V., Shapirovsky M.P., Zinina L. Sposob ochistki proizvodstvennykh stokov i ustrojstvo dlya ego osushhestvleniya. [A method of industrial wastewater treatment and apparatus for its implementation]. Patent RF, no.2167110, 2001. Zolotnikov A.N., Gromov S.L., Korotkevich I.B., Bomshtein V.E., Malishev R.M. Sposob gal'vanokoagulyatsionnoj ochistki promyshlennoj stochnoj vody. [A method of galvanic and coagulatory treatment of industrial
.
.
. 2013.
2
7.
wastewater] Patent RF no.2079439, 1997. Solozhenkin P.M., Solozhenkin I.P., Solozhenkin O.P. Ehffekt makrogal'vanopary v ochistke stochnykh vod: teoreticheskie problemy i konstruirovanie apparatury. [Galvanic couple effect in wastewater treatment: theoretical issues and equipment design]. III Kongress obogatitelej stran SNG. [III CIS Congress of the Mineral Processing Engineers]. Moscow, 2001. pp. 231-232. Chanturiya V.A., Shadrunova N.N., Orehova N.N., Chalkova N.L. Tekhnologiya izvlecheniya tsinka iz rudnichnykh i podotval'nykh vod. [Technology of zinc extraction from mine and underspoil waters]. Obogashhenie rud. [Ores dressing], 2011, no.1, pp. 36-39. Orehova N.N., Chalkova N.L. Tekhnologiya selektivnogo izvlecheniya tsinka iz gidrotekhnogennykh georesursov mednokolchedannykh mestorozhdenij. [Technology of selective zinc extraction from hydrotechnogenic georesources of copper-sulphide deposits]. Vestnik Magnitogorskogo gosudarstvennogo tehnicheskogo universiteta im. G.I. Nosova. [Vestnik Magnitogorsk State Technical University named after G.I. Nosov], 2011, no.3, pp. 55-59. Orehova N.N., Bikbaeva G.A., Akulenko I.V. Izuchenie vozmozhnosti primeneniya klinkera dlya ochistki kislykh sul'fatnykh metallsoderzhashhikh tekhnogennykh vod metodom gal'vanokoagulyatsii. [Study of the clinker usage possibility for treatment of acid sulphate metal comprising waters by galvanocoagulation]. Kompleksnoe osvoenie mestorozhdenij poleznykh iskopaemykh. [Integrated mineral deposit development]. Magnitogorsk: Magnitogorsk State Technical University named after G.I. Nosov, 2012, pp. 177-183.
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.,
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// : », 2011. 2.
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-
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1,5
)
69.. 187-190.
. .,
.
: .,
« .
2. .92-95.
-
//
. 2012.
INFORMATION ABOUT THE PAPER IN ENGLISH
MEASUREMENTS OF CCM MOULDS NARROW WALLS WEARS Vdovin .N., Petrov I. ., Pozin
.
Abstract. Walls of moulds for continuous casting units are wearing. To identify in what degree this prevent to subsequent application it is necessary to disassemble the crystallization fully. With the view of decreasing of this process' laboriousness it is offered device which make possible to carry out measurements directly on the net area. We described existent mechanisms of measurement of crystallization narrow walls. Keywords: crystallization (mould), copper wall, slab CCM, wear. References 1.
Vdovin . N., Pozin A. ., Petrov I. . . Modernizacija uzkih stenok kristal-
2.
lizatorov sljabovyh MNLZ s cel'ju prodlenija resursa. [Narrow walls' modernization of slab CCM moulds for the purpose of resource extension]. Aktual'nye problemy sovremennoj nauki i obrazovanija: materialy 69-j nauch.-tehn. konf. [Actual problems of contemporary science and education: materials of 69 Scientific and Technical conference]. Magnitogorsk: FSBEE HPE «MSTU», 2011. 2. P. 187-190. Vdovin K.N., Pozin A.E., Podosian A.A. Sovershenstvovanie konstrukcii uzkih stenok kristallizatorov sljabovyh MNLZ. [Improvement of narrow walls construction of slab CCM moulds]. Steel, 2012, no.2, . 92-95.
28 ———————————————————————————————————
. . .
. 2013.
2.
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.,
.,
.
.
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32 ———————————————————————————————————
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.-
, 1977. 648 . ., . 2006. .,
.
3. . 64-67.
4.
.,
5.
.
// .,
//
., :
. 2011.
.
// 3. . 53-56.
.
, 2012. 376 . .
.
. 2006.
4 (16). . 63-69.
INFORMATION ABOUT THE PAPER IN ENGLISH
IMPROVEMENT OF THE ROLLING COILS STEEL 80R IN JSC «MMK» Korchunov A.G., Bigeev V.A., Sychkov A.B., Zaitsev G.S., Ivin Y. ., Dziuba Y.A. Abstract. The paper analyzes the characteristics of cross-cutting technology of the making high carbon steel, its secondary metallurgy, continuous casting, rolling coils and heat treatment it on line two-stage cooling of the mill 170. Found that the design flaws cause a number of problems on virtually all stages. A number of technological methods to improve the quality of steel continuously cast billets, rolled products,
namely the exclusion of aluminum as a deoxidizer and its replacement by calcium containing material feed-my, mostly in the form of a powder wire in stages disabili-ties portions , resulting in increase in the purity of the steel from non-deformable inclusions (HB) oxides of aluminum, which greatly increased silo-technological processing of the rental at drawing, some increase of manganese content in steel and reduced sili-
34 ———————————————————————————————————
. . .
. 2013.
2.
…
.,
con. With two-stage cooling the steel laid out on the turns, it is proposed to increase the speed of the protractor-tion coils of wire rod, thus providing with intense fan-cooled high uniformity of the structure and properties of the metal along the turn and coil. To get by extremely uniform structure and mechanical properties of steel Buntova for processing into wire, stabilized reinforcing wire for concrete sleepers new-generation for high-speed railways and stabilized reinforcing ropes high strength with low stress relaxation in exploitation, proposed the concept of reconstruction of the line to ensure the regime Stelmor isothermal processes patenting and recrystallization annealing. Keywords: technology, quality, structure, properties, uniformity of the qualitative parameters, Stelmor line, reconstruction, patenting, stream recrystallization annealing, the isotherm.
1. 2.
.
.
Rezhim dvustadijnogo ohlazhdenija katanki iz stali 80KRD na linii Stelmor. [Mode two-stage cooling of steel wire rod 80KRD line Stelmor]. Metallurgicheskaja i gornorudnaja promyshlennost'. [Metallurgical and Mining Industry], 2006, no.3, pp. 64-67. Parusov E.V., Parusov V.V., Sagura L.V., Sivak A.I., Klimenko A.P., Sychkov A.B. Razrabotka rezhima dvustadijnogo ohlazhdenija katanki iz stali S80D2, legirovannoj borom i vanadiem. [Development of two-stage cooling mode rod C80D2 steel, alloyed with boron and vanadium]. Metallurgicheskaja i gornorudnaja promyshlennost'. [Metallurgical and Mining Industry], 2011, no.3, pp. 53-56. Parusov V.V., Sychkov A.B., Parusov E.V. Teoreticheskie i tehnologicheskie osnovy proizvodstva vysokojeffektivnyh vidov katanki. [Theoretical and technological basis of the production of high-performance wire rod]. Dnepropetrovsk: Art Press, 2012. 376 p. Sychkov AB. Tehnologicheskie aspekty proizvodstva kachestvennoj katanki. [Technological aspects of the production of high-quality wire rod]. Vestnik Magnitogorskogo gosudarstvennogo tehnicheskogo universiteta im. G.I. Nosova. [Vestnik Magnitogorsk State Technical University named after G.I. Nosov], 2006, no.4 (16), pp. 63-69.
3.
4.
5.
References
.,
Gulyaev A.P. Metallovedenie. [Metallography]. Moscow, Metallurgy, 1977, 648 p. Parusov E.V., Parusov V.V., Evsyukov M.F., Sivak A.I., Sychkov A.B.
621.774.37:539.319 .,
.,
.
. .
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. :
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,
,
; F0
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, (
.
;
F1 – -
– ;
. 1).
(1)
,
-
———————————————————————————————————
35
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0, 65tg
-
,
s
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.
[2];
– ; -
,
–
. .
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. 2) .
. 1.
. [1]
:
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s
, .
.
. 2013.
2
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. 2.
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,
-
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tg
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q
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s1
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s2
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q
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-
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s1
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s1
,
q
(3)
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– q
; F1 – -
,
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(9)
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36 ———————————————————————————————————
(Cu), Nb,
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. 2013.
2.
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.,
.,
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, ,
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. 1.
.
1.
2.
2.
-
., // 2010. .16, 448 .
.,
2. . 191-196. ., .
.
.
. .:
, 1972.
INFORMATION ABOUT THE PAPER IN ENGLISH
ENERGY-POWER CHARACTERISTICS AT DRAWING THREEMETAL BILLET Kolmogorov G.L., Snigireva M.V., Chernova T.V. References Abstract. In work the design procedure energy-power characteristics is offered at drawing threemetal billet. Stress in separate layers threemetal billet and total stress of drawing are defined. The optimum geometry of the drawing tool including key parametres of technological process is defined. Keywords: drawing, threemetal billet, superconductor, optimisation.
1.
2.
Kolmogorov G.L., Chernova T.V., Snigireva M.V. O predel'nyh deformacijah pri proizvodstve kompozicionnyh sverhprovodnikovyh izdelij. [Limit strains in the production of composite superconductor products]. Mehanika kompozicionnyh materialov i konstrukcij. [Mechanics of Composite Materials and Structures]. 2010, vol.16, no.2, pp. 191-196. Perlin I.L., Ermanok M.Z. Teorija volochenija [The theory of drawing]. Moscow, 1972, 448 p.
621.778.1.073 .,
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x
x
(13)
z
x a z yb2
le ;
xb z
2
y c2
xd z
xc z
x
x
z
xd z y c2
2
xd z 2
2
xd z 2
y 0
; (14)
2
2
yd2
2
xa z
y 0
xa z
xb z y a 2
2
2
;
1
y 0
yb2
2
.
xb z
1
y a2
2
y
xa z
1
;
1
1
2
xbz
xb z ya1
1
1
1
.
xa z yb1
x
1
1
xd z
-
:
ya1
y
1
2
.
2
z le ;
-
,
R1z
2
Ry Rp cos
(5)
Oxy
b2z , c2z , d 2z
(9)
,
Rp
Ry
2
z le ;
Rp sin ;
,
Yl
2
Ry R p
Oz
Z
(8)
(4)
z le .
2
2
z le ;
xa2 ;
le ;
ctg x
2
Ry Rp cos
0;
yd1
Rp
ctg x
y
xd1
,
sin
2
z le ;
Rp sin ;
1
yc1
ctg x
Ry
k1z xk z , yk1 z : xk z yk1
2
H1
;
sin 1
yb1
Ry
(7)
Rp
-
,
Ry
1
.
le ; xc z y d 2 2
xc z
;
2
(15)
z le .
———————————————————————————————————
39
b1z k1z c1z
b2z k2z c2z ,
Oz,
,
z p
R , b1z , k1z
c1z . b1z
z 1
k
c1z
Ox
Ox Oz
2
R
xk z
z p
yc21
xc z
1
1
2 xk z
,
(16)
xc z
1
1
b1z k1z c1z
-
Ox
xO Z
R pz .
xk z
P
1
(17)
b1z k1z c1z b1z k1z c1z
Oz 2
R pz 2
y
:
x xO z
,
xc z
x
1
p
xk z 1
(18)
z le ; 2
R pz 2
y
x xO z
p
, xk z
x
2
xb z 2
(19)
z le . ,
-
z . (
. 4), -
-
. 1).
.
,
g1n1 f1 g 2 n2 f 2
g1m1 f1
Rs,
g 2 m2 f 2
OS
xOS .
y
-
Rp ,
g1n1 f1
,
Oz
, :
R p2
y
xg2
. 4.
x
x f2
x 2 ; xg1
y
0
x
x f1
z
y
0.
f1 , g1 , f 2
g 2 n2 f 2 J1 0,8
g2 ,
c / 2,
c,
0;
m1n1 a
(20)
0,19
(
m2 n2 .
. 1).
,
40 ———————————————————————————————————
:
. . .
. 2013.
2.
…
R p2
g1 x g , y g : x g 1
y g1
1
1
z
J1
n1 xn1 , yn1 : xn
1
z
h1u1
J 12 ; (21)
0; Rp
R p2
J12 ; y g1
g1n1 f1
g 2 n2 f 2 , h1, q1, u1, h2, q2
,
-
Rs
2
y f1
2 ym1
x 2f1
,
y f1
b 2 cos
x*h1
y*h1
(24)
u1 x*u1 , y*u1 : y
*
R
u1
(29)
b 2 cos
x*u1
ym1
Rs .
(25) -
y
*
R
q1
;
z
(30)
0,
0; 2
b 2 cos
2 p
0,
2
b 2 cos
2 p
; z
* q1 x*q1 , y *q1 : x q1
yOS
u2
2
b 2 cos
R p2
Rs :
-
:
(23)
0.
ym1
*
,
h1 x*h1 , y*h1 :
J1
.
h2 u2 ,
(22)
0;
z
**
(26)
0; y n1
f1 x f1 , y f1 : x f1
.,
btg 2
z 0,
(31)
y 2 s
y
R
xg2
x
x
2
yOS ; xg
x f2
y
1
z
0
y 0;
x xf
1
h2 x**h2 , y**h2 : (26)
0.
y
h1s1 , u1v1 , h2 s2
u2v2 .
, ,
,
-
.
Ox* y* *
Oy Oy h1 u1
Ox** y **
**
h2
u2
1
2.
h2u 2
h1u1
. 1),
.
.
,
**
R
h2
y
**
R
u2
y * q2
R p2
b
b cos
. **
2
tg cos
,
(28)
–
. 1);
.
–
0.
z
,
z
.
. 2013.
2
0.
-
,
q1, n1, m1, f1, q2, n2, m2
f2 :
g1 xg1 , y gz1 : xg1 y gz1
. .
(34)
btg 2
,
z, tg
(33)
0,
0;
le
Ox** y **
(
z
b 2 cos
h1 s1 , u1v1 , h2 s2 Ox* y*
**
;
2
b 2 cos
(27)
u 2 v2 tg
b 2 cos
2
0,
z,
*
*
(32)
z
* q2 x*q2 , y *q2 : x q2
-
h2u2
2 p
;
2
b 2 cos
u2 x**u2 , y**u2 : x**u
:
h1u1
2 p
b 2 cos
x**h2
Ry
Ry
J1
2
R p2
J12 ;
z2
le
(35)
z
0;
———————————————————————————————————
41
n1 xn , y nz : xn 1
y
z n1
Ry
Ry
2
Rp
f1 x f1 , y zf1 : x f1 y zf1
Ry
Ry
J
y
Ry
2
Ry
2
z
z m2
m2 xm2 , y z m2
y
: xm
y
RPyz x2
xg2
x
RSyz
xg2
le z 0;
x
y
le
0
x2
yOz S ; x g1
x f2
y
z
z
z z h1z , q1z , u1 , h2 , q 2z
0;
z
u 2z
O x y
z
*
0;
O x y
**
y.
-
g1z m1z f1z , g 2z m2z f 2z ,
J 22 ;
2
z ** p
(40)
-
(41)
z
(48)
0.
z * p
le
Ry
0;
y
-
le
Ry
2
x f1
Oz
(39)
2
(47)
0;
x
le
0
0;
z
.
h1z , q1z , u1z h2z , q 2z
u 2z
0;
2
y 0;
x x f1
J 22 ;
Ry
z2
Ry Rp a
z Py
R
z 0,
le
Ry
(
. 1).
.
Rp 0,
z
-
z
2
z
g1n1f1, g2m2f2
le (43). , 1 z
,
, ,
-
(29)-(34),
(42)
a–
g2n2f2, g1m1f1
yOz P ; xg1
x f2
(38)
z2
R p2
2
J2
g 2z m2z f 2z
0;
f 2 x f2 , y zf2 : x f 2 y zf2
2
z2
Rp
0;
z
g1z m1z f1z :
y
Rp2
n2 xn2 , ynz2 : xn2 z n2
(37)
le
0;
Ry Rp a
Ry
z 0;
le
z2
g2 xg2 , ygz2 : xg2 y gz 2
(36)
2
J12 ;
2
J1 1
Ry
z
R p2
m1 xm1 , ymz 1 : xm ymz 1
g1z n1z f1z , g 2z n2z f 2z , Oz -
0;
1
1
,
,
-
:
.
g1n1f1 g2n2f2
–
2
yn z
z Py
R
1
2 yn z
yf z
g1m1 f1
g 2 m2 f 2 :
1
–
1
R
x 2f1
yf z 1
2 ym z 1
z
0;
(43)
le
z
0.
(44)
y
yOz S
yOz S
z 1
le
z
le
0.
z
(49)
z 2
z 2
z
1
1
z ;
2
0,
(50)
2
–
.
RSyz
h1z , q1z , u1z h2z , q 2z
z n1
z Py
R ;
(45)
ymz 1
RSyz .
(46)
y
z ; 2 R py z
1
: z OP
2arcsin z 1
yf z yOz P
z RPy
le
z
1
2
ym z
z Sy
x 2f1
yf z
1
.
u 2z
-
Oxyz z OP
y
y
:
42 ———————————————————————————————————
. . .
. 2013.
2.
…
xh*z cos
h1z xh z , yh z : xh z 1
yhz 1
z 1
1
1
xh*1 sin
yh*1 cos
z 1
1
yu*z 1
1
1
xu*z sin
yq*z cos
q1z xq z , yq z : xq z 1
yqz
* q1z
y sin
1
1
1
z 1
1
2
2
xh**z cos
xu**z cos
yu z
2
2
2
xu**z sin
yu**z cos
z 2
2
yq**z sin
z 2
2
yu**z sin
z 2
2
z 2
y cos
2
yq z
u q :
y
(53)
h2z q2z :
y
;
z 2
z 2
yqz1
yhz1
xqz1
xhz1
y
u q :
(54)
xqz1 yhz1
x
yqz1
yuz1
xqz1
xuz1
yqz2
yhz2
xqz2
xhz2
yqz2
yuz2
xqz2
xuz2
xhz1 yqz1
xqz1
xhz1
xqz1 yuz1
x
xhz2 yqz2
xqz2
xhz2
xqz2 yuz2
x
xuz2 yqz2
xqz2
xuz2 s1z
(55)
z z 1 1
;
(57)
s
,
z 2
(59)
y
y b2
xa z 2
xb z
y a1
y b1
xa z
xb z
y
v
(58)
xq z 1
xu z
yq z 1
yh z
xq z
xh z
1
1
xq z
xhz
(60). (12)-(15), (18)
Oz
xq z
xu z 2
.
2 3
R
x2 ,
x
2
xq z 2
. 2013.
xa z
y
0,
xd z
y
0,
x
xb z
y
0,
xd z
x
xc z
y
0,
2
1
,
le ,
z
le ,
y
0,
1
y y
x v2
z
2
xg2
0,
x s1
0, y
xv z
x
xh z
x
x x
x s2
0,
1
1
1
xh z
x f2 x f1
x
y
le
0,
x f2
y
0,
xu z
y
0,
le
z
0,
xs z
y
0,
le
z
0,
1
le
z z
le
0, 0,
z
0,
(61)
,
1
1
1
xh z yq z
2
2
2
xh z
2
2
1
xh z yq z
xq z xq z yu z
xa z
le ,
1
xq z y h z
2
2
x
1
1
2
x
x v1
xu z
xq z x
xc z
x f1
x
xu z y q z
1
1
2
x
xg2
xq z y h z 1
x
1
x g1
xq z
x yh z
2
.
1
z
1
1
2
1
2
yu z
xb z
xq z yu z
x
xk z ,
2
,
1
x g1
x
1
2
x b z y a1
z y Py ,
xb z
xb z
,
2
1
yq z
2
xb z
xa z
1
yq z
2
xa z
y Syz ,
xb z , 2
xb z y a2
2
1
2
y
x a z y b2
z y Sy ,
x
2
1
x2
yu z
1
xk z
x a z y b1
x
x2
1
-
z 2
R3 ,
2
x2
yq z
y
x
1
R Syz 2
y
xO z ,
2
R Syz 2
y
x
P
z 2 R Py
y
R3
x
y a2
y
-
:
x2 ,
1
(60)
(19) (47),(48), (57)-(60)
, ,
:
y
.
v1z
y
z 2 R Px
(59)
-
(48)
.
y
;
u q
(47)
(56)
-
R 32
(58)
g m f
,
y
;
z z 1 1
yOz p .
Oz,
(57)
z z 1 1
hq z 1
;
xuz1
xqz2 yhz2
x
.
xuz1 yqz1
xqz1
;
yOz p ;
** q2z
q xq z , yq z : xq z 2 2
2
z 2
2
z 2
yOz p ; z 2
2
z 2
2
yh**z sin
z 2
2
u2z xu z , yu z : xu z 2
(52)
z z 1 1
;
z 2
2
yh**z cos
z 2
2
;
yOz p ; z 1
hq : y
(51)
z 1
1
z z 1 1
y ; 2
2
xh**z sin
;
z Op
h2z xh z , yh z : xh z
yh**z
yu*z sin
z 1
z 1
1
z 1
1
yOz p ;
1
yu*z cos
z 1
1
z 1
xu*z cos
xu z , yu z : xu z
u
yh*z sin
z 1
1
.,
xs z
,
x
xh z
2
y
0,
2
le
z
0,
2
xu z y q z 2
xu z
2
,
xu z 2
x
xv z 2
y
0,
le
z
0.
2
2
———————————————————————————————————
43
, [2], -
1.
.,
2.
.
3.
-
2009.
//
4.
-
.
.
.
:
, 2012. 180 . //
. .,
. ./ . . . ,
.
, [4].
.,
.
4(28). . 34-35. ., .
. ,
:
:
VII
.
.
.
: -
. : , 2012. . 56-61.
.
, ,
-
//
.
. .:
, 2012. . 43-54.
INFORMATION ABOUT THE PAPER IN ENGLISH
METHODS OF ANALYTICAL DESCRIPTION OF DEFORMATION ZONE GEOMETRY DURING REINFORCEMENT WIRE-DRAWING IN THE GROOVE WITH OFFSET ROLLERS PAIRS Slavin V.S., Brichko A.G. Abstract. Drawing in rollers becomes more and more popular in using technologies for manufacturing of shaped sections and round colddawn reinforcement wire. But determination of energy and power parameters is rather complicated because of analytical description of groove lines and its changing deformation zone length. At work, based on new additional parameters, such as the geometrical groove centre (GGC) and the roller nominal diameter, the equation of round deformation during reinforcement wire-drawing in the groove with offset rollers pairs was gotten. Keywords: drawing, rollers, roller nominal diameter, groove with offset rollers pairs, deformation zone, groove lines.
3.
4.
References 1. 2.
Slavin V.S., Norets A.I., Brichko A.G. Kleti-voloki dlja poluchenija kalibrovannogo prokata: monografija. [Rollers for manufacturing of shaped sections: Monography]. Magnitogorsk: MaSU, 2012. 180 p. Slavin V.S. Vybor parametrov dlja opisanija ochaga deformacii, obrazovannogo proizvol'nym kolichestvom rolikov. [Choice of parameters describing deformation zone formed by arbitrary number of rolls]. Vestnik
Magnitogorskogo gosudarstvennogo tehnicheskogo universiteta im. G.I. Nosova. [Vestnik Magnitigorsk state technical university named after G.I. Nosov]. 2009, no.4(28), pp. 34-35 Slavin V.S., Brichko A.G. Metodika opisanija geometrii kalibra pri volochenii armaturnoj provoloki v voloke so smeshhennymi parami rolikov. [Description methodology of caliber geometry during reinforcement wire drawing in the offset roller pairs groove]. Mehanicheskoe oborudovanie metallurgicheskih zavodov: mezhregion. sb. nauch. tr. / pod red. Korchunova A.G. [Mechanical equipment for iron and steel works: edited by A.G.Korchunov]. Magnitogorsk: published by Magnitogorsk State University named after G.I. Nosov, 2012, pp. 56-61. Slavin V.S., Brichko A.G. Vybor deformirujushhego oborudovanija na osnove silovogo analiza, obespechivajushhego povyshenie kachestva holodnotjanutoj armaturnoj provoloki dlja predvaritel'no naprjazhennyh zhelezobetonnyh shpal. [Power analysis for the choice of forming equipment providing high quality ofround cold-dawn reinforcement wire for prestressed concrete sleepers]. Fundamental'nye i prikladnye problemy nauki: materialy VII Mezhdunar. simpoziuma. [Fundamental and applied problems of science. Papers of the VII International Symposium]. Moscow: RAN, 2012, vol.2, pp. 43-54.
621.771.23 .,
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44 ———————————————————————————————————
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–
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= 35,11% 0,44
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.
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———————————————————————————————————
45
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»( .2
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-
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123
2. 3. 4.
, ,
.
5.
., 3. . 35-42. 1991.
.,
.
// .,
.
., .
.
12. . 48-50.
. 1990. .
5. . 45-48. .
. 44-46.
1985.
.,
//
//
.
. 1997.
10.
. . 1998. //
//
11. . 27-29. .
.
.
INFORMATION ABOUT THE PAPER IN ENGLISH
SIMULATION BURNISHING OF SUPERFICIAL DEFECTS OF THE «PIN-HOLE» TYPE IN COLD ROLLING USING COMPUTERS Naizabekov A.B., Talmazan V.A., Erzhanov A.S. Abstract. Intensive development of production demands from sheet-rolling production of release of the thin high-quality leaf intended for manufacturing of various details and the equipment. Sheets besides optimum structure and demanded mechanical properties, should possess high quality of a surface. Timely detection of superficial defects excludes marriage hit on the subsequent operations, and also allows to define in due time possibility
of formation of marriage, its reason and in due time to take measures for prevention of formation of defect. Results of researches are given in this work about possibility of improvement of quality of a surface of a cold rolling strip at the expense of increase of a burnishing of superficial defects of the «pin-hole» type by means of the COMPUTER. Keywords: surface defect, regression a sample piece, cold rolling,
46 ———————————————————————————————————
. . .
. 2013.
2.
… finite-element method, flattening, exploration, the rolling mill, forming, relative depth of flaw, coefficient of friction, work roll, net reduction, case-hardening, a reference grid, simulation.
4.
References 1. 2.
3.
Zenchenko F.I., Chernov P.P., Masur V.L. Preduprezhdenie poryvov pri holodnoj prokatke polos. [The prevention of gusts at cold rolling of strips]. Prokatnoe proizvodstvo. [Plate rolling], 1990, no.3, pp. 35-42. Skorohodov V.N., Barmin G.J., Chernov P.P. Vykatyvaemost' defektov poverhnosti pri holodnoj prokatke i kachestvo polosy. Flattening of surface defects at cold rolling and quality of a strip. Stal’. [Steel], 1991, no.5, pp. 45-48.
5.
.,
.,
.
Zilberg J.V. Issledovanie zakonomernostej formoizmenenija poverhnostnyh defektov pri prokatke. [Exploration of regularities of a forming of surface defects at rolling]. Stal’. [Steel], 1997, no.10, . 44-46. Zilberg J.V., Milenin A.A. Teoreticheskoe i jeksperimental'noe issledovanie formoizmenenija poverhnostnyh vpadin pri prokatke. [Theoretical and an experimental research of a forming of superficial caves at rolling]. Izvestia vuzov. Chernaya metallurgia. [Informations of higher educational institutions. Iron and steel industry], 1998, no.11, pp. 27-29. Ershov V.N. Issledovanie intensivnosti vyrabotki poverhnostnyh defektov metalla pri prokatke. [Exploration of intensity of galling of surface defects of metal at rolling]. Izvestia vuzov. Chernaya metallurgia. [Informations of higher educational institutions. Iron and steel industry], 1985. no.12, pp. 48-50.
621.771.014.2 .
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48 ———————————————————————————————————
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.
// , 11-15 2010 . 1. , 2010. . 230-235.
-
//
4. . 21-23. OptimPass:
1, . 301.
, 2003.
:
2011618922,
2012.
INFORMATION ABOUT THE PAPER IN ENGLISH
NUMERICAL SOLVING TASK OF OPTIMIZATION SHAPE OF EXHAUST BREAK-DOWN PASS Kalugina O.B. Abstract. Numerical method of solving optimization shape pass design task had been developed. Maximize efficiency coefficient was choose as an optimization efficiency function. It improved minimize deformation work. Program application was constructed by developed numerical method. It enabled to got optimal shape design in odd pass with maximize efficiency coefficient when even roll pass parameters was furnish. Approbation of program application for optimization task solving was saw above most typical system of break-down pass. Obtained numerical solving is tie together working pass design. Keywords: shape rolling, modeling, optimization, shape of rollpass, energy consumption.
Zaitsev A.A. Analiz i sovershenstvovanie shem kalibrovki ravnopolochnoj uglovoj stali na osnove matrichnyh modelej formoizmenenija. Extented ab-
.
.
. 2013.
3.
4.
References 1.
2.
2
stract of PhD dissertation [Analyzing and improvement scheme calibration of equal angular steel by matrix modeling of forming]. Magnitogorsk, 2003, 107 p. Tulupov O.N., Kinzin D.I. Calibration Simple Rolling Shapes as solving task of optimal control. Trudy vos'mogo kongressa prokatchikov. [Proceedings of eight congress rolling specialists]. Magnitogorsk, 11-15 October, 2010, . 230-235. Kinzin D.I., Kalugina O.B. Ocenka vlijanija pokazatelej formy ochaga deformacii na ushirenie pri sortovoj prokatke. [Assessment of deformation Hearth form indicator’s influence on widening in shape rolling]. Vestnik Magnitogorskogo gosudarstvennogo tehnicheskogo universiteta im. G.I. Nosova. [Vestnik Magnitigorsk state technical university named after G.I. Nosov]. 2011, no.4, . 21-23. Optimizacija kalibrovki valkov sortoprokatnogo stana po kriteriju jeffektivnosti kalibrovki OptimPass. [Optimization of calibration grooving bar-rolling mill by criteria efficiency OptimPass]. Certificate state registration of program for computer no.2011618922, OBPBT 2012. 1, p. 301.
———————————————————————————————————
49
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7. 1.
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6.
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//
.,
5. . 85-93.
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, 1996. 231 . :
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.
. 2013.
-
1. . 69-72.
INFORMATION ABOUT THE PAPER IN ENGLISH
RESTORATION OF DIMENSION AND FORM OF PART BY COMBINED TREATMENT Belevskiy L.S., Belevskaiy I.V., Ephimova Y.Y. Abstract. Influence of possibility restoration of dimension and form of part by combined treatment – by knurling of roller with following cladding functional coating by flexible tool. That treatment to permit increase diameter of wear part, receive ultra grain structure in surface layer by IPD. Different functional coating may be cladding from pure metals and alloys, composite or nanocomposite materials. Keywords: restoration of dimensions, knurling, plastic deformation, friction cladding, coating, ultra grain structure.
5.
References
6.
1.
2. 3.
4.
Hvorostuhin L.A., Shishkin S.V., Kovalev A.P., Ishmakov R.A. Povyshenie nesushhej sposobnosti detalej mashin poverhnostnym uprochneniem. [Increase of bearing ability of details by superficial hardening]. Moscow: Mechanical engineering, 1988. 144 p. Shneider U.G. Jekspluatacionnye svojstva detalej s reguljarnymmikrorel'efom. [Operational properties of details with a regular microrelief]. Leningrad: Mechanical engineering, 1982. 248 p. Makarov A.V., Korshunov L.G. Povyshenie tverdosti i iznosostojkosti zakalennyh lazerom stal'nyh poverhnostej s pomoshh'ju frikcionnoj obrabotki. [Increase of hardness and wear resistance of the steel surfaces tempered by the laser by means of frictional processing]. Trenie i iznos. [Friction and wear], 2003, vol.24, no.3, pp. 301-306. Makarov A.V., Korshunov L.G., Malygina I.Yu., Solodova I.L. Povyshenie teplostojkosti i iznosostojkosti zakalennyh uglerodistyh stalej frikcionnoj
uprochnjajushhej obrabotkoj. [Increase of heat resistance and wear resistance tempered carbonaceous staly frictional strengthening processing]. Metallovedenie i termicheskaja obrabotka metallov. [Metallurgical science and heat treatment of metals]. 2007, no.3, pp. 57-62. Pashinskaiy E.G., Tolpa A.A. Vozmozhnosti intensivnoj prokatki so sdvigom dlja formirovanija ul'tramelkozernistoj struktury na primere jevtektoidnoj stali. [Vozmozhnosti's crowd of intensive rolling with shift for formation of ultrafine-grained structure on the example of evtektoidny steel]. Metally. [Metals]. 2004. no.5. pp. 85-93. Garkunov D.N., Lozovsky V.I. Ampere-second 115744. Sposob pridanija poverhnosti metallov trushhihsja par protivozadirnyh svojstv. [Threw the Way of giving of a surface of rubbing couples of anti-seize properties]. Belevskiy L.S. Plasticheskoe deformirovanie poverhnostnogo sloja i formirovanie pokrytija pri nanesenii gibkim instrumentom. [Plasticheskoye deformation of a blanket and covering formation when drawing by the flexible tool]. Magnitogorsk: Russian Academy of Sciences lyceum, 1996. 231 p. Antsupov V.P. Theory and practice of cladding by the flexible tool. Magnitogorsk: Magnitogorsk State Technical University named after G.I. Nosov. 1999. 241 p. Platov S.I., Dyoma P.P., Zotov A.V. Model' formirovanija tolshhiny plakirovannogo sloja na detaljah par trenija tehnologicheskogo oborudovanija // [Model of the formation thickness clad Lauer for friction pairs of process equipment]. Vestnik Magnitogorskogo gosudarstvennogo tehnicheskogo universiteta im. G.I. Nosova. [Vestnik of Magnitogorsk State Technical University named after G.I. Nosov], 2013, no.1. pp. 69-72.
7.
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INFORMATION ABOUT THE PAPER IN ENGLISH
OZONE AND ULTRASOUND INFLUENCE ON FORMING AND PROPERTIES OF ANODE COATING ON ALUMINUM AND ITS ALLOYS Kolenchin N.Ph., Kuskov V.N., Safronov A.V., Shadrina P.N. Abstract. The time dependences of oxide coating growth during anodization of aluminum A3 and alloy D16 in aqueous solution of sulfuric acid with aeration of the solution by a ozone-aerial mixture are studied. Thickness, microhardness and wearproofness of the coating are increased thanks to intensification of the anodization processes. Ultra-
.
.
. 2013.
2
sonic influence simultaneously with aeration of the electrolyte by the ozone-aerial mixture increases microhardness and wearproofness of the coating. Keywords: anodization, aluminium alloy, ozone-aerial mixture, ultrasound, oxide coating, microhardness, wearproofness, thickness.
———————————————————————————————————
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INFORMATION ABOUT THE PAPER IN ENGLISH
EFFECT OF ANNEALING ON MICROSTRUCTURE AND PROPERTIES OF WELDED JOINTS PRODUCED BY LASER WELDING OF LOW CARBON STEEL STRIPS Golubchik E.M., Kopceva N.V., Meshkova A.I., Efimova J.J., Nikitenko O.A., Medvedeva E. . Abstract. Questions of formation of laser welded joints in coldrolled strips in a larger continuous technological units are investigated, a new cold rolling mill JSC «MMK». Metallografic investigation results of welding zone in low carbon rolled steel after continuous annealing using ANO are presented. Keywords: laser welding, band, microstructure, microhardness, annealing. 1.
References Dubrovsky B.A., Shilyaev P.V., Las kov S.A., Gorbunov A.V., Lukyanov S.A.,
2.
3.
Golubchik E.M. Osvoenie tehnologij proizvodstva prokata v novom komplekse holodnoj prokatki. [Mastery rolled steel produced in a new cold rolling mill complex]. Stal’. [Steel], 2012, no.2. pp. 63-65. Efimenko L.A., Prygaev A.K., Elagina O.Yu. Metallovedenie i termicheskaya obrabotka svarnykh soedinenii. [Physical metallurgy and heat treatment of welded joints: Instructional. allowance]. Moscow: logos, 2007, 456 p. Malashenko .A., Mezenov A.V. Lazernaya svarka metallov. [Laser welding of metals]. Moscow: Mashinostroenie, 1984. 44 p.
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// . : , 1983. . 91-95. Maratray F., Poulalion A., Fillit R., Bruyas H. The role of vanadium in high chromium white irons. Bulletin du cercle d’études des métaux, 1983, vol.15, no.4. p. 17-34. ., ., . // . . . 2004. 7. . 25-28. ., . , , // . . . 2009. 2. . 39-42. ., ., ., . // . 1981. 1. . 52-55. ., . // . ». 2011. 14. . 16. . 67-70. Lee B.-J. On the stability of Cr carbides // CALPHAD. 1992. V. 16. No. 2. P. 121-149. . . : , 2003. 380 . ., ., ., . . // . 1979. . 47. . 1. . 125-135. ., ., ., ., . Fe–Cr // . 1986. . 61. . 2. . 331-338. ., ., ., ., . // . 1986. . 62. . 2. . 318-327. ., ., . . .: , 1994. 288 .
INFORMATION ABOUT THE PAPER IN ENGLISH
ESTIMATION OF CARBON CONTENT AND HEAT TREATMENT EFFECTS ON PHASE COMPOSITION OF CHROMIUM-VANADIUM CAST IRONS Koryagin Yu.D., Okishev K.Yu., Sozykina A.S. Abstract. The paper considers the effect of carbon content and heating temperature on hardness and the amount of retained austenite after quenching in wear-resistant cast irons containing 14% chromium and 3% vanadium. A model for calculation of structural composition and hardness of high-carbon alloys containing chromium and vanadium quenched from a certain temperature is also proposed. Keywords: chromium- and vanadium-containing alloys, quenching, heating temperature for quenching, hardness, retained austenite.
.
.
. 2013.
2
References 1.
2.
Mirzaev D.A., Mirzaeva N.M., Emelyushin A.N. Ledeburitnye splavy dlja instrumentov, obrabatyvajushhih grafit. [Ledeburite alloys for tools for machining of graphite]. Metallovedenie i termicheskaja obrabotka metallov. [Metal Science and Heat Treatment]. 1988, vol. 30, no.7, pp. 519-523. Emelyushin A.N., Mirzaev D.A., Mirzaeva N.M. et al. Metallovedenie, fizika i mekhanika primenitel’no k protsessu obrabotki grafitirovannykh materi-
———————————————————————————————————
63
3. 4. 5.
6.
7. 8.
9.
10. Sil’man G.I., Frol’tsov M.S., Zhukov A.A., Prudnikov A.N. Osobennosti mikrostruktury i raspredelenia elementov v kompleksno-legirovannykh belykh chugunakh. [Characteristics of the microstructure and distribution of elements in complex-alloy white cast irons]. Metallovedenie i termicheskaja obrabotka metallov. [Metal Science and Heat Treatment]. 1981, vol. 23, no 1, pp. 64-68. 11. Okishev K.Yu., Sozykina A.S. Izmenenie struktury i tverdosti vysokokhromistykh staley i chugunov s temperaturoy nagreva pod zakalku [Structure and hardness changes with hardening temperature in highchromium steels and cast irons]. Vestnik Yuzhno-Ural’skogo gosudarstvennogo universiteta. Seriya “Metallurgiya” [Bulletin of South Ural State University. Ser. “Metallurgy”], 2011, no.14, issue 16, pp. 67-70. 12. Lee B.-J. On the stability of Cr carbides. CALPHAD, 1992, vol.16, no.2, pp. 121-149. 13. Popov V.V. Modelirovanie prevrashcheniy karbonitridov pri termicheskoy obrabotke staley [Modelling of carbonitride transformations in heat treatment of steels]. Ekaterinburg: UrO RAN, 2003, 380 p. 14. Mirzayev D.A., Steynberg M.M., Ponomareva T.N., Schastlivtsev V.M. Vlijanie skorosti ohlazhdenija na polozhenie martensitnyh tochek. Uglerodistye stali. [Influence of cooling rate on the position of martensitic transformation points. carbon steels]. Fizika metallov i metallovedenie. [Physics of Metals and Metallography], 1979, vol. 47, no.1, pp. 102-111. 15. Mirzayev D.A., Karzunov S.Ye., Schastlivtsev V.M., Yakovleva I.L., Kharitonova Ye.V. [Gamma alpha transformation in low-carbon Fe-Cr alloys]. Fizika metallov i metallovedenie. [Physics of Metals and Metallography], 1986, vol. 61, no.2, pp. 114-122. 16. Mirzayev D.A., Karzunov S.Ye., Schastlivtsev V.M., Yakovleva I.L., Kharitonova Ye.V. [Peculiarities of martensite and bainite transformations in chromium steels]. Fizika metallov i metallovedenie. [Physics of Metals and Metallography], 1986, vol.62, no.2, pp. 100-109. 17. Schastlivtsev V.M., Mirzayev D.A., Yakovleva I.L. Struktura termicheski obrabotannoy stali [Structure of heat treated steel]. Moscow: Metallurgiya, 1994, 288 p.
alov. Struktura i iznosostoykost’ instrumentov [Metal science, physics and mechanics applied to the process of machining of graphitized materials]. Magnitogorsk: Magnitogorsk state technical university named after G.I. Nosov, 2002. 200 p. Tsypin I.I. Belye iznosostoykie chuguny: struktura i svoystva [Wear-resistant white cast irons: structure and properties]. Moscow: Metallurgiya, 1983. 176 p. Zhukov A.A., Sil’man G.I., Frol’tsov M.S. Iznosostoykie otlivki iz kompleksno-legirovannykh belykh chugunov [Wear-resistant castings from complex alloyed white cast irons]. Moscow: Mashinostroenie, 1984. 104 p. Emelyushin A.N. Razrabotka novogo klassa ledeburitnykh splavov dlya instrumentov, obrabatyvayushchikh nemetallicheskie materialy v usloviyakh umerennogo nagreva rezhushchey kromki. Extented abstract of PhD dissertation. [Development of a new class of ledeburite alloys for tools for machining of non-metallic materials under the condition of moderate heating of cutting edge]. Chelyabinsk, 2000. 44 p. Koryagina T.I., Ibragimov Kh.M. Vliyanie rezhimov termicheskoy obrabotki na tverdost’ i iznosostoykost’ khromovanadievykh chugunov [Effect of heat treatment on hardness and wear resistance of chromium-vanadium cast irons]. Voprosy proizvodstva i obrabotki stali [Problems of production and treatment of steel]. Chelyabinsk: ChPI, 1983. pp. 91-95. Maratray F., Poulalion A., Fillit R., Bruyas H. The role of vanadium in high chromium white irons. Bulletin du cercle d’études des métaux. 1983, vol.15, no.4, pp. 17-34. Kolokol’tsev V.M., Petrochenko E.V., Molochkov P.A. Struktura i iznosostoykost’ khromovanadievykh chugunov [Structure and wear resistance of chromium-vanadium cast irons]. Izvestiya vysshikh uchebnykh zavedeniy. Chernaya metallurgiya [Proceedings of higher education institutes. Ferrous metallurgy]. 2004. no.7. pp. 25-28. Petrochenko E.V., Valishina T.S. Vliyanie khimicheskogo sostava, usloviy kristallizatsii i rezhimov termicheskoy obrabotki na osobennosti mikrostruktury, mekhanicheskie i spetsial'nye svoystva belykh khromovanadievykh chugunov. Izvestiya vysshikh uchebnykh zavedeniy. Chernaya metallurgiya [Proceedings of higher education institutes. Ferrous metallurgy]. 2009. no.2. pp. 39-42.
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INFORMATION ABOUT THE PAPER IN ENGLISH
PECULIARITIES OF STRUCTURE AND PROPERTIES FORMATION OF HOT PRESSED RODS FROM LEADED BRASS FRIABLE CHIPS Zagirov N.N., Ivanov E.V., Kovaleva A.A., Anikina V.I. Abstract. The article describes the scheme of making hot pressed rods from the waste of leaded brass friable chips that does not include melting stage. It studies how the type of chips, the cross section of mouldings, and the elongation ratio influence the structure and properties of hot extruded rods. Keywords: graded friable chips, leaded brass, process scheme, rod, briquetting, hot extrusion, structure, hardness. 1.
References Raikov U.N., Ashihmin G.V., Poluhin V.P., Gulyaev A.S. Mednye splavy.
2. 3.
Marki, svojstva, primenenie: spravochnik / pod obshh. red. Ju.N. Rajkova. [Copper alloys. Brand, properties, application: A guide. Ed. U.N.Raikov]. M.: «Institute Tsvetmetobrabotka», 2011, 456 p. Shevakin U.F., Grabarnik L.M., Nagaitsev A.A. Pressovanie tjazhelyh cvetnyh metallov i splavov. [Pressing of heavy non-ferrous metals and alloys]. M.: Metallurgy, 1987, 246 p. Zagirov N.N., Konstantinov I.L., Ivanov E.V., Arefyev A.A. Razrabotka tehnologii poluchenija provoloki iz sortnoj sypuchej struzhki latuni LS59-1. [Technology of making wire from graded friable brass chips 59-1]. Tsvetnye metally. [Non-ferrous metals], 2012, no.10, pp. 96-99.
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INFORMATION ABOUT THE PAPER IN ENGLISH
MATHEMATICAL SIMULATION PROCESS SOFT REDACTION SLABS OF CONTINUOUS CASTING TUBE STEEL Moshkunov V.V., Stolyarov A.M., Kazakov A.S., Bulanov L.V., Yurovskiy N.A., Cheremisin D.D. Abstract. Mathematical simulation process soft redaction slabs was determined design value content of liquid in the two-phase zone slabs of tube steel for first and second threshold conductivity. It has been found experimentally that central part reduced slab specific pore space a third less of than in slab without soft redaction. Keywords: cast slab, soft redaction, mathematical simulation, specific pore space
2.
References
3.
1.
Moshkunov V.V., Stoliarov A.M., Kazakov A.S. Opredelenie dliny lunki zhidkogo metalla v nepreryvnolityh sljabah iz trubnoj stali s ispol'zovaniem jeffekta «iskusstvennogo razdutija» zagotovki. [Determination of the length to point of solidification in strands of Peritectic Low Alloyed steels for pipes with using «Mini whale» effect]. Vestnik Magnitogorskogo gosudarstvennogo tehnicheskogo universiteta im. G.I. Nosova. [Vestnik Magnitogorsk State technical university named after G.I. Nosov]. 2012, no.1 (37), p. 24-26.
4.
Moshkunov V.V., Stoliarov A.M., Kazakov A.S. Snizhenie osevoj himicheskoj neodnorodnosti trubnoj stali v rezul'tate mjagkogo obzhatija nepreryvnolitogo sljaba. [Longitudinal chemical inhomogeneity of continuously cast slab from tube steel improvements as a result of soft reduction]. Vestnik Magnitogorskogo gosudarstvennogo tehnicheskogo universiteta im. G.I. Nosova. [Vestnik Magnitogorsk state technical university named after G.I. Nosov]. 2012, no.2 (38), pp. 24-25. Bulanov L.V., Yurovskiy N.A., Khimich T.G., Masaev M.V. Matematicheskaja model' i raschet parametrov mjagkogo obzhatija nepreryvnolityh zagotovok. [Mathematical simulation and calculation parameter soft redaction continuously cast slab]. Metallurgicheskaya i gornorudnaya promyshlennost’. [Metallurgical and Mining Industry], 2003, no.8, pp. 124-130. Yurovskiy N.A., Bulanov L.V. Raschetnyj analiz vlijanija parametrov nepreryvnoj razlivki na poroobrazovanie slitka. [Calculated analysis influence factors continuously cast on the pore formation slab]. Stal’. [Steel]. 2005, no.9. pp. 14-17.
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.
. . .:
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, 1990. 320 .
//
,
», 24-25
. 2003,
-
. 2003. . 44-52.
INFORMATION ABOUT THE PAPER IN ENGLISH
REDUCTION OF DYNAMIC LOADS FROM THE DRIVE THE JAW CRUSHER FOR CRUSHING HIGH-STRENGTH MATERIALS Kuzbakov Zh.I. Abstract. Mathematical simulation process soft redaction slabs was determined design value content of liquid in the two-phase zone slabs of tube steel for first and second threshold conductivity. It has been found experimentally that central part reduced slab specific pore space a third less of than in slab without soft redaction. Keywords: cast slab, soft redaction, mathematical simulation, specific pore space
2.
Klushantsev B.V., Kosarev A.I., Muyzemnek J.A. Crushers. Drobilki. Konstrukcija, raschet, osobennosti jekspluatacii. [Design, calculation, operating features]. M: Mechanical Engineering, 1990. 320 . Kuzbakov J.I. Problemy droblenija ferrohroma i razvitija konstrukcij drobil'nyh mashin. [The problems of fragmentation of ferrochrome and development structures crushers]. Materialy respublikanskoj nauchnoj konferencii «Problemy kompleksnogo osvoenija prirodnyh resursov Zapadnogo Kazahstana i Juzhnogo Urala» [Proceedings of the republican scientific conference «Problems of the exploration of natural resources in Western Kazakhstan and South Urals»]. Aktobe, 2003. . 44-52.
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INFORMATION ABOUT THE PAPER IN ENGLISH
DECREASE IN TARIFFS FOR ELECTRIC POWER TRANSFER AT THE EXPENSE OF COMPENSATION OF JET POWER Zaslavets B.I., Malafeev A.V., Yagolnikova E.B. Abstract. Results of calculations of specific expenses for compensation of jet power, coefficient of jet power are presented in article before compensation, expected economic effect in the conditions of the
.
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industrial enterprise. The general recommendations about compensation of jet power at the expense of use of certain types of synchronous motors are provided.
———————————————————————————————————
79
, Keywords: lectric power losses, active capacity, jet capacity, compensation of jet power, coefficient of jet power, synchronous motors, tariffs for electric power transfer.
5.
References 1.
2.
3.
4.
About a procedure of payments of values of a ratio of consumption of active and jet power for separate power accepting devices (groups of power accepting devices) the consumers of electric energy applied to definition of obligations of the parties in contracts on rendering services in transfer to electric energy (power supply contracts): The order of the Ministry of Industry and Energy of the Russian Federation 49 from 22.02.2007. The resolution of the government of the Russian Federation 530 "About the approval of Rules of functioning of the retail markets of electric energy in a transition period of reforming of power industry" (The Russian Federation Code, 2006, N 37, Art. 3876) of August 31, 2006. The resolution of the government of the Russian Federation 861 «About the approval of Rules of non-discriminatory access to services in transfer of electric energy and rendering these services, Rules of nondiscriminatory access to services in supervisory control in power industry and rendering these services, Rules of non-discriminatory access to services of Trading System Administrator of the wholesale market and rendering these services and Rules of technological connection of power accepting devices (power installations) legal entities and individuals to electric networks» of August 31, 2006. Ivanov V.S., Sokolov V.I. Rezhimy potreblenija i kachestvo jelektrojenergii sistem jelektrosnabzhenija promyshlennyh predprijatij. [Modes of consumption and quality of the electric power of systems of power supply of the industrial enterprises]. Moscow: Energoatomizdat, 1987. 336 .
6. 7.
8.
9.
Zhelezko Yu.S. Novye normativnye dokumenty, opredeljajushhie vzaimootnoshenija setevyh organizacij i pokupatelej jelektrojenergii v chasti uslovij potreblenija reaktivnoj moshhnosti. [New piece of iron the normative documents defining relationship of the network organizations and buyers of the electric power regarding conditions of consumption of jet power]. Promyshlennaja jenergetika. [Industrial power]. 2008, no.8, pp. 2-6. Instructive materials of the Glavgosenergonadzor / the Ministry of Energy of the USSR /Instruction on compensation of jet power in electric networks of the industrial enterprises. Moscow: Energoatomizdat, 1985. 290 p. Vagin G.Ya. Golovkin N.N., Yurtayev S.N. K voprosu ob jekonomicheskoj celesoobraznosti primenenija sinhronnyh dvigatelej dlja kompensacii reaktivnoj moshhnosti na promyshlennyh predprijatijah. [To a question of economic feasibility of use of synchronous motors for compensation of jet power at the industrial enterprises]. Promyshlennaja jenergetika. [Industrial power]. 2009. no.6. pp. 41-47. Certificate on official registration of the computer program 2007611306. «Calculation and Optimization of the Established and Transitional Operational Modes of Parallel and Separate Work with a Power Supply System and Short Circuit Modes on the Earth with an Assessment of Influence on Electric Equipment in Systems of Power Supply of the Industrial Enterprises»/VA program. Igumenshchev, V.V. Zinovyev, A.V. Malafeev, O.V. Bulanova // The computer programs, databases, TIMS. Moscow: FIPS, 2007, 2. About the approval of Methodical instructions by calculation of raising (lowering) coefficients to tariffs for services in transfer of electric energy depending on a ratio of consumption of active and jet power for separate power accepting devices (groups of power accepting devices) the consumers of electric energy applied to definition of obligations of the parties on contracts on rendering services in transfer to electric energy: Order 219- /6 of August 31, 2010.
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INFORMATION ABOUT THE PAPER IN ENGLISH
FEATURES LOGISTICS IN METALLURGICAL HOLDINGS Latfullin R.R., Vasileva N.F. Abstract. In the article the characteristics of logistics in metallurgical holdings are analyzed. Particularly relevant problem gets investigated in connection with the fact that the steel industry is one of the basic branches of the Russian economy. The authors of the article show the investigated problem on the example of such metallurgical holding, as the Magnitogorsk Iron and Steel Works OJSC. Keywords: a metallurgical holding, material supply, working capital, factory stocks, turnover, inventory management.
3. 4.
References 1.
2.
Meeting on the status and prospects of black metallurgy. The official website of the President of Russia, Vladimir Putin, 16 July 2012. Mode of access: http:// www.kremlin.ru/transcripts/16000 (date accessed: 18/10/2012). Pleschenko V.I. Institucional'nyj aspekt material'no-tehnicheskogo snabzhenija predprijatij chernoj metallurgii. [Institutional aspect of logistics
5.
enterprises of ferrous metallurgy]. Metallurgia. [Metallurgy]. 2012, no.1, . 75-81. Budanov I.A. Chernaja metallurgija v jekonomike Rossii. [Iron and steel industry in the economy of Russia]. Ros. Acad. Sciences, Institute of narodnohoz. forecasting. Moscow: MAKS Press, 2002, 427 p. Vasilyeva N.F., Latfullin R.R. Osobennosti upravlenija proizvodstvennymi zapasami v obsluzhivajushhih strukturah metallurgicheskih holdingov. [Features control of inventory in service structures metallurgical holdings]. Diskussia: zhurnal nauchnykh publikatsyi. [Discussion: Journal of scientific publications], 2012, no.9 (27), . 41-45. Shtansky V.A., Krasnov N.A. Stimuly i faktory razlichnyh form integracii rossijskih metallurgicheskih kompanij v uslovijah globalizacii mirovoj jekonomiki. [Incentives and pressures of various forms of integration of Russian metallurgical companies in the globalization of the world economy]. Ekonomika i promyshlennost’. [Economics in the industry]. 2011, no.3, . 3-10.
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2013. http://www.imf.org/external/pubs/ft/weo/2013/01/weodata. http://www.mckinsey.com/mgi/reports/pdfs/lean_russia/russian_lang/MGI_l ean_russia_chapter_1.pdf. 8. http://www.mckinsey.com/mgi/publications/lean_russia/ 9. . ( ) // : : . .: , 2012. .124-129. 10. . . .: , 2003. . 416. 11. . . . . 406.
req=doc;base=PRJ;n=98540 . http://www.pnp.ru/comment/detail/11675 European development bank cuts growth forecast for emerging economies. http://www.reuters.com/article/2013/05/10/us-ebrd-economyidUSBRE9490QG20130510 : . . http://www.gks.ru/wps/wcm/connect/rosstat_main/rosstat/ru/statistics/popu lation/demography/. ., . XX . .: , 1991. . 196. . World Economic Outlook Database,
7.
INFORMATION ABOUT THE PAPER IN ENGLISH
STRATEGIC PLANNING IN THE FIELD OF PRODUCTIVITY AND ECONOMIC GROWTH IN RUSSIA Oder D.E. 5.
Grayson J., O’Dell Carla. American management at the threshold of the XXI century. Moscow: Economics, 1991, . 196. 6. The International Monetary Fund. World Economic Outlook Database, April 2013. http://www.imf.org/external/pubs/ft/weo/2013/01/weodata 7. http://www.mckinsey.com/mgi/reports/pdfs/lean_russia/russian_lang/MGI_l ean_russia_chapter_1.pdf 8. http://www.mckinsey.com/mgi/publications/lean_russia/ 9. Yudina T.N. Innovacii i ciklichnost' rossijskoj jekonomiki (v kontekste koncepcij N.D.Kondrat'eva i S.Ju.Glaz'eva). [Innovation and cyclicality of the Russian economy (in the context of N.D.Kondratev and S.Yu.Glazev concepts]. Innovacionnoe razvitie ekonomiki Rossii: stsenarii i strategii: Piataia mezhdunarodnaia nauchnaia konferentsia. [Innovative development of Russian economy: scenarios and strategies: The Fifth International Scientific Conference]. Moscow: TEIS, 2012, . 124-129. 10. Veduta .N. Strategija i jekonomicheskaja politika gosudarstva. [The strategy and economic policy of state]. Moscow: Academic Project, 2003, p. 416. 11. Veduta E.N. Idem. 406 p.
Abstract. This article discusses the degree of development of human capital on the example of the labour productivity level in the Russian Federation in terms of different sectors of the economy. There are presented ways of improving the country's intensive economic growth in the context of strategic planning. Keywords: labour productivity, intensive economic growth, human capital, innovations. References 1. 2. 3. 4.
Draft Federal Law 143912-6 «Regarding state strategic planning. http://base.consultant.ru/cons/cgi/online.cgi?req=doc; base = PRJ; n = 98540 The parliamentary newspaper. http://www.pnp.ru/comment/detail/11675. European development bank cuts growth forecast for emerging economies. http://www.reuters.com/article/2013/05/10/us-ebrd-economyidUSBRE9490QG20130510 Federal State Statistics: Annual data. The size and composition. http://www.gks.ru/wps/wcm/connect/rosstat_main/rosstat/ru/statistics/popu lation/demography/.
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INFORMATION ABOUT THE PAPER IN ENGLISH
IMPROVING THE SYSTEM OF WAGE DRIVERS OF THE CAR IN THE UNDERGROUND MINE OF SIBAY Akshentsev F.I., Trilyev A.E. Abstract. The paper presents an experimental situation on pay drivers BelAZ using the accounting system of production results «traffic light», a sequence of payroll drivers, indicators for determining the fees for the result of work by the end of this month. By the example of calculating the salary for June 2012 are presented the advantages of the experimental situation than the existing one. Keywords: Improvement, effective hour, efficiency, accounting system «traffic light». References 1.
Kalimullin E.A., Akshentsev F.I., Makarova V.A., Trilyev A.E. Sovershenstvovanie sistemy oplaty truda prohodchikov na Sibajskom podzemnom rudnike. [Improving the system of wage sinkers in the underground mine of Sibay]. Vestnik Magnitogorskogo gosudarstvennogo
2.
3.
tehnicheskogo universiteta im. G.I. Nosova. [Vestnik Magnitogorsk state technical university named after G.I. Nosov]. 2012. no.4. . 91-93. Gibadullin Z.R., Makshukov F.H., Makarova V.A., Sabanova M.N. Sistema ucheta «svetofor» kak jelement uluchshenija organizacii truda. [ ccounting system «traffic light» as element of improvement of the organization work]. Kadrovik, 2011. no.8, pp. 148-151. Aleksenko V.S., Akshentsev F.I., Brown O.B. and others. Modeli povyshenija jeffektivnosti i bezopasnosti proizvodstva posredstvom sovershenstvovanija organizacii i oplaty truda: Otdel'naja stat'ja Gornogo informacionno-analiticheskogo bjulletenja (nauchno-tehnicheskogo zhurnala). [Models of efficiency and safety by improving the organization of production and wages: A separate article of the Mining Information and Analytical Bulletin (research journal)]. Moscow: Mining book, 2012, 50 p. (Series «B-ka mining engineer-manager», Vol.18).
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INFORMATION ABOUT THE PAPER IN ENGLISH
ALGORITHM DEVELOPMENT COMMERCIALIZATION OF INNOVATION Kuzina G.V., Usmanova C.F. Abstract. Commercial realization of innovation long occupied the minds of many economists. In this article considers the issues of commercialization of innovations. Provide statistical information about the created small innovative enterprises in Russia engaged in the commercialization of the innovation. Describes all phases of the innovation process from the idea to the final commercialization of innovations with regard to continuous updating the technology, product. Considering the stage of obtaining titles of protection for intellectual property statistics for Russia. Describes each stage of commercialization of innovation and thus created an algorithm which other newly created small innovative enterprises use it for commercial implementation of their innovation. Very important is the evaluation phase of innovation. There are many methods of this assessment, but not all of them can be used for the assessment of new technology, new product. The article contains the main methods of assessment, describes the problems that can occur when the evaluation and future attachment intellectual property in the authorized capital of a small innovative enterprise. In conclusion, the author describes the experience based on the created small innovation enterprise at the University. Keywords: innovative SMEs, innovation, commercialization, small business, business ideas, methods of assessment of the intangible asset.
.
.
. 2013.
2
References 1.
2.
3.
4.
Korobeynikov O.P., Trifilova A.A., Korshunov I.A. Rol' innovatsij v protsesse formirovaniya strategii predpriyatiya. [Role of innovations in the process of formation of strategy of the company]. Menedzhment v Rossii i za rubezhom. [Management in Russia and abroad]. 2000, no.3. Koptyakova S.V., Kuzina G.V. Problemy i perspektivy razvitiya proizvodstva po pererabotke vtorichnogo syr'ya. [Problems and prospects of development of production for processing of secondary raw material]. Ekonomika. Sotsiologiya i pravo [Economy. Sociology and law]. Moscow, 2010, no.4, pp. 27-29 Kuzina G.V. Problemy i perspektivy razvitiya malykh form predpriyatij na baze universitetov. [Problems and prospects of development of small forms of the enterprises on the basis of universities]. Ekonomicheskie, sotsial'nye i pravovye issledovaniya: sb.nauch.tr./pod red. V.V. Filatova. [Economic, social and legal research: scientific transactions. Ed. V.V. Filatov]. Magnitogorsk: Magnitogorsk state technical university named after G.I. Nosov, 2011, pp. 68-71. Kuzina G.V. Metodologicheskie osnovy vzaimodejstviya predprinimatel'skikh struktur. [Methodological bases of interaction of business structures]. Ekonomicheskie, gumanitarnye i pravovye issledovaniya: sb.nauch.tr./pod red. V.V. Filatova [Economic, humanitarian and legal research: scientific transactions. Ed. V.V. Filatov]. Magnitogorsk: Magnitogorsk state technical university named after G.I. Nosov, 2012, pp. 31-34.
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. . .
. 2013.
2.
The information about the authors
TTHHEE IINNFFO ORRM MAATTIIO ONN AABBO OUUTT TTHHEE AAUUTTHHO ORRSS Akshentsev Fedor Ivanovich – chief of bureau of work, salary and planning of the Sibai underground mine PLC «Uchalinsky GOK», Republic of Bashkortostan, city of Sibay. Phone: (34775) 2-20-06. E-mail:
[email protected]. Angelova Elena Ivanovna – mining engineer, postgraduate student of department of underground mining of SEI (State Educational Institution) HPE (Higher Professional Education) «Magnitogork State Technical University named after G.I. Nosov». E-mail:
[email protected]. Anikina Valentina Ilyinichna – candidate of engineering science, associate Professor, Department of Metal Science and Heat Treatment of Metals, Federal State Autonomous Institution of Higher Professional Education «Siberian Federal University». Phone: (391) 291-25-61. Belevskaya Irina Valeryevna – a post-graduate student of the applied mechanica department of FSEI HPE «Magnitogorsk State Technical University named after G.I. Nosov». Phone: 8 (3519) 23 06 82. E-mail:
[email protected]. Belevskiy Leonid Sergeevich – Doctor of Tech. Sci., professor of the applied mechanica department of FSEI HPE «Magnitogorsk State Technical University named after G.I. Nosov». Phone: 8 (3519) 09 76 79. E-mail:
[email protected]. Bigeev Vahit Abdrashitovich – Doctor of Technical Sciences, Professor, Head of the faculty of Metallurgy of ferrous metals, FSEI HPE «Magnitogorsk State Technical University named after G.I. Nosov». Phone: 8 (3519) -29-85-59. E-mail: v.bigeev11 @ yandex.ru. Bikbaeva Gulnara Amantaevna – graduate student « he hair of mineral processing» FSBEI HPE «Magnitogorsk State Technical University named after G.I. Nosov». Phone: 8(3519)48-92-04. -mail:
[email protected]. Brichko Aleksandr Gennadievich – postgraduate student of the department of Machine and metal forming technology FSBEI HPE «Magnitogorsk State Technical University named after G.I. Nosov». Phone: 8(3519) 29-84-36. E-mail:
[email protected]. Bulanov Leonid Vladimirovich – candidate of technical science, manager design-analytical CCM laboratory, department scientific information work «Uralmashplant» JSC, city Yekaterinburg. Phone: 8(3433)27-51-13. E-mail:
[email protected]. Cheremisin Dmitriy Dmitrievich – development engineer second category, design-analytical CCM laboratory, department scientific information work «Uralmashplant» JSC, city Yekaterinburg. Phone: 8(3433)27-51-13. E-mail:
[email protected]. Chernova Tatyana Vyacheslavovna – Candidate of Technical Sciences, docent of Department Dynamics and strength of machines, Perm National Research Polytechnic University. Dzyuba Anton Yurievich – head of the laboratory rolled bars and coils JSC «Magnitogorsk Iron and Steel Works». Email:
[email protected]. Efimova Yliya Yurevna – candidate of technical sciences, docent of the department metallurgy and machine technology of FSEI HPE «Magnitogorsk State Technical University named after G.I. Nosov». Phone: 8 (3519) 29 84 81. E-mail:
[email protected]. Emelianenko Elena Alekseevna – candidate of technical sciences, associate professor of the department geology, mineralogy, petrology and survejor cases of SEI (State Educational Institution) HPE (Higher Professional Education) «Magnitogork State Technical University named after G.I.Nosov». Phone: 8(3519) 29-85-40. Golubchik Eduard Mikhailovich – Candidate of technical sciences, assistant professor chair of mechanical engineering and metallurgical technologies, Federal State Educational Estab-
. . .
. 2013.
2.
lishment of Higher Professional Education «Magnitogorsk State Technical University named after G.I. Nosov». Phone: 8(3519) 29-85-67. E-mail:
[email protected]; Ivanov Evgeny Vladimirovich – senior lecturer, Department of Metal Forming, Federal State Autonomous Institution of Higher Professional Education «Siberian Federal University». Phone: (391) 206-37-31. Ivin Yuri Aleksandrovich – head of the laboratory of electric steelmaking production o JSC «Magnitogorsk Iron and Steel Works». Phone: 8(3519)25-45-51. E-mail:
[email protected]. Kalugina Olga Borisovna – senior lecturer of «Information technology» department at the State Educational Institution of Higher Professional Education «Magnitogorsk State Technical University named after G.I. Nosov». Phone: 29-8478. E-mail:
[email protected]. Kazakov Alexander Sergeevich – candidate of technical science, senior expert of the Continuous Steel Casting Laboratory, Central Laboratory, OJSC «Magnitogorsk Iron and Steel Works». Phone: 8(3519)25-32-87. E-mail:
[email protected]. Kolenchin Nikolay Philippovich – Candidate of Technical Sciences, Deputy Rector of Tyumen State Oil and Gaz University. Phone (3452) 256976. -mail: kolenchin @ tsogu.ru. Kolmogorov German Leonidovich – Doctor of Technical Sciences, professor, valid member of RANS, the head of Department Dynamics and strength of machines, Perm National Research Polytechnic University. Phone: 8 (342) 239-13-40. Email:
[email protected]. Koptseva Natalia Vasilyevna – Doctor of Technical Science, assistant professor chair of Materials Science and heat treatment of metals, Federal State Educational Establishment of Higher Professional Education «Magnitogorsk State Technical University named after G.I. Nosov». Phone: 8(3519) 29-85-67. Korchunov Alexei Georgievich – Doctor of Technical Sciences, Professor, Vice-Rector for International Relations, FSEI HPE «Magnitogorsk State Technical University named after G.I. Nosov». Phone: 8 (3519) 29-84-09. E-mail:
[email protected]. Koryagin Yuri Dmitrievich – doctor of engineering science, professor, head of the Physical Metallurgy and Solid State Physics Department, Southern Ural State University, Chelyabinsk. Phone: (351)2679013. E-mail:
[email protected]. Kovaleva Angelna Adolfovna – candidate of engineering science, associate Professor, Department of Metal Science and Heat Treatment of Metals, Federal State Autonomous Institution of Higher Professional Education «Siberian Federal University». Phone: (391) 291-25-61. Kulikova Elizaveta Anatolievna – student « he hair of mineral processing» FSBEI HPE «Magnitogorsk State Technical University named after G.I. Nosov». Kurochkin Anton Ivanovich – the post-graduate student of chair GMiTTK FSEI HPE «Magnitogorsk State Technical University named after G.I. Nosov». Phone: 29-85-20. E-mail:
[email protected]. Kuskov Viktor Nikolaevich – Doctor of Technical Sciences, Professor of Tyumen State Oil and Gaz University. Phone: (3452) 417025. E-mail:
[email protected]. Kuzbakov Zhanabergen Imankulovich – Candidate of Technical Sciences, Associate Professor of «Metallurgy» Aktobe State University named after K. Zhubanov, Aktobe, Kazakhstan. Phone: (7132) 998578. E-mail:
[email protected]. Kuzina Glafira Viktorovna – assistant, graduate of Magnitogorsk State Technical University named after G.I. Nosova. E-mail:
[email protected].
———————————————————————————————————
99
The information about the authors Kuzmin Sergei Lvovich – PhD, Dean of the Faculty of Mining and Metallurgy of Rudny Industrial Institute, Kazakhstan. -mail:
[email protected]. Latfullin Ruslan Ravilevich – post-graduate student of the Finance and Accounting Department of the FSEI HPE «Magnitogorsk State Technical University named after G.I. Nosov». Phone: 23-03-73. E-mail:
[email protected]. Malafeev Alexey Vyacheslavovich – Candidate of Technical Sciences, the associate professor, the associate professor of power supply of the industrial enterprises, FSEI HPE «Magnitogorsk State Technical University named after G.I. Nosov», Phone: 29-85-81,
[email protected]. Maulyanbaev Tursun Iskhakdzhanovich – Ph.D., Associate Professor, Professor of the department of Metallurgy and Mining of Rudny Industrial Institute, Kazakhstan. E-mail:
[email protected]. Mazhitov Artur Maratovich – post-graduate student of the department of underground mining of deposits of minerals of the FSEI HPE «Magnitogorsk State Technical University named after G.I. Nosov». Phone: (3519)29-85-34. E-mail:
[email protected] Medvedeva Ekaterina Mikhailovna – student of group TB-09, State Educational Establishment of Higher Professional Education «Magnitogorsk State Technical University named after G.I. Nosov». Melnikov Ivan Timofeevich – Candidate of technical sciences, assistant professor of the departament «Open working exploitation of mineral» SEA (State Education Institution) HPE (Higher Professional Education) «Magnitogorsk State Technical University named after G.I. Nosov». Phone: (8-3519) 29-85-56. E-mail:
[email protected]. Mescheryakov Eyduard Jurevich – Cand. Tech. Sci., the senior lecturer of the department of underground mining of deposits of minerals of the FSEI HPE «Magnitogorsk State Technical University named after G.I. Nosov». Phone: (3519)22-2113. E-mail:
[email protected]. Meshkova Anna Ivanovna – laboratory assistant of the Central Laboratory of Control «Magnitogorsk Iron and Steel Works», post-graduate student of Federal State Educational Establishment of Higher Professional Education «Magnitogorsk State Technical University named after G.I. Nosov». Moshkunov Vladimir Victorovich – planner of the Continuous Steel Casting Laboratory, Central Laboratory, OJSC «Magnitogorsk Iron and Steel Works». Phone: 8(3519)25-6914. E-mail:
[email protected]. Naizabekov Abdrahman Batyrbekovich – the academician, dr.sci.tech., the professor, rector of Rudnensky industrial institute. Phone: 8(71431) 5 07 03. Nikitenko Olga Alexandrovna – Candidate of technical sciences, assistant chair of mechanical engineering and metallurgical technologies, Federal State Educational Establishment of Higher Professional Education «Magnitogorsk State Technical University named after G.I. Nosov». Oder Daria Evgenyevna – post-graduate student of the Chair of strategic planning and economic policy of the School of Public Administration of Moscow State University named after M.V. Lomonosov. E-mail: daria.oder @ gmail.com. Okishev Konstantin Yurievich – candidate of physical and mathematical science, associate professor of the Physical Metallurgy and Solid State Physics Department, Southern Ural State University, Chelyabinsk. Phone: (351)2679013. E-mail:
[email protected]. Orehova Nataliya Nicolaevna – candidate of technical Sciences, associate professor « he hair of mineral processing» Magnitogorsk State Technical University named after G.I. Nosov. Phone: 8(3519) 29-85-55. -mail:
[email protected]. Osadchy Viktor Ivanovich – Ph.D., Head of Technical Department Krasnooktyabrskiy bauxite ore of JSC «Kazakhstan Aluminium», Kazakhstan. E-mail:
[email protected].
Pavlova Elena Vitalevna – assistant of the departament «Open working exploitation of mineral» SEA (State Education Institution) HPE (Higher Professional Education) «Magnitogorsk State Technical University named after G.I. Nosov». Phone: (8-3519) 29-85-56. E-mail:
[email protected]. Petrov Igor Evgenievich – the Engineer of CJSC «Mekchanoremontny Complex». Pogorelov Andrew Yurevich – student of the departament «Open working exploitation of mineral» SEA (State Education Institution) HPE (Higher Professional Education) «Magnitogorsk State Technical University named after G.I. Nosov». E-mail: andrey.p.-8831-@ mail.ru. Pozin Andrey Evgenievich – Candidate of Technical Sciences, the Engineer of CJSC «Mekchanoremontny Complex». Rylnikova Marina Vladimirovna – Doctor of Technical Sciences, Professor, Senior Research Fellow «of the Institute of Comprehensive Exploitation of Mineral Resources of the Russian Academy of Sciences», Moscow. Safronov Aleksandr Vladimirovich – post-graduated of Tyumen State Oil and Gaz University. E-mail:
[email protected]. Shadrina Polina Nikolaevna – junior scientist of Tyumen State Oil and Gaz University. E-mail:
[email protected]. Shevtsov Nikolai Sergeevich – postgraduate student of the departament «Open working exploitation of mineral» SEA (State Education Institution) HPE (Higher Professional Education) «Magnitogorsk State Technical University named after G.I. Nosov». Phone: (8-3519) 29-85-56. E-mail:
[email protected]. Slavin Vyacheslav Semyonovich – Doctor of Technical Science, professor of the Metallurgical plants mechanical equipment department, FSBEI HPE «Magnitogorsk State Technical University named after G.I. Nosov». Phone: 8(3519) 387430. E-mail:
[email protected]. Smyatkin Alexei Nicolaevich – deputy surveyor Open Joint stock Company «Sibai Mining», Republic of Bashkortostan, Sibai. Phone: 8 (34775) 42189. E-mail:
[email protected]. Snigireva Marina Viktorovna – senior Lecturer of Department Dynamics and strength of machines Perm National Research Polytechnic University. Sozykina Anna Sergeevna – assistant of the Physical Metallurgy and Solid State Physics Department, Southern Ural State University, Chelyabinsk. Phone: (351)2679013. E-mail:
[email protected]. Stolyarov Alexander Mihajlovich – doctor of technical science, professor, the professor of chair of metallurgy of ferrous metals (City educational institution, higher vocational training), FSEI HPE «Magnitogorsk State Technical University named after G.I. Nosov». Phone: 8(3519)29-84-49. E-mail:
[email protected]. Sychkov Alexander Borisovich – Doctor of Technical Sciences, professor of materials science and heat treatment of metals, FSEI HPE «Magnitogorsk State Technical University named after G.I. Nosov». Phone: 8 (3519) 29-85-67. E-mail:
[email protected]. Talmazan Vitaly Antonovich – cand.tech.sci, the senior lecturer chair «Plastic metal working», the Karaganda state industrial university. Phone: 8(701) 405 86 76. Trilyev Anton Evgenievich – engineer PLC «InEcO» Russia, city of Chelyabinsk. Phone: (351) 265-55-04. E-mail:
[email protected]. Usmanova Clara Fyadovna – doctor of economic Sciences, Professor, head of Department of Economy and Commerce of Magnitogorsk State Technical University named after G.I. Nosova, Phone: 8(3519)23-03-75. Vagin Vladimir Sergeevich – Cand.Tech.Sci., the senior lecturer, the professor of chair GMiTTK FSEI HPE «Magnitogorsk State Technical University named after G.I. Nosov». Phone: 29-85-20. E-mail:
[email protected].
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The information about the authors Vasileva Nadezhda Fedorovna – candidate of science, associate Professor of the Finance and Accounting Department of the FSEI HPE «Magnitogorsk State Technical University named after G.I. Nosov». Phone: 23-03-73. E-mail:
[email protected]. Vdovin onstantin Nikolaevich – Doctor of Technical Science, professor, the head of the Chair of EM and CP FSBEI HPE «Magnitogorsk State Technical University named after G.I. Nosov». Phone: 8(3519)298419. E-mail:
[email protected]. Yagolnikova Evgenia Brisovna – the senior teacher of chair of power supply of the industrial enterprises, FSEI HPE «Magnitogorsk State Technical University named after G.I. Nosov». Phone: 29-85-81. E-mail:
[email protected]. Yerzhanov Almas Satybaldyevich – the higher teacher chair «Plastic metal working», the Karaganda state industrial university. Phone: 8(701) 239 42 97. E-mail:
[email protected]. Yurovskiy Nikolai Anatolievich – senior scientific officer, team manager design-analytical CCM laboratory, department scientific information work «Uralmashplant» JSC, city Yekaterinburg. Phone: 8(3433)27-51-13. E-mail:
[email protected].
. . .
. 2013.
2.
Zagirov Nikolay Nailyich – candidate of engineering science, associate Professor, Department of Metal Forming, Federal State Autonomous Institution of Higher Professional Education «Siberian Federal University». Phone: (391) 206-37-31. E-mail:
[email protected]. Zaitsev Gregory Sergeevich – a graduate student, Department of Metallurgy of ferrous metals, FSEI HPE «Magnitogorsk State Technical University named after G.I. Nosov». E-mail:
[email protected]. Zalyadnov Vadim Yurevich – Candidate of technical sciences, assistant professor of the departament «Open working exploitation of mineral» SEA (State Education Institution) HPE (Higher Professional Education) «Magnitogorsk State Technical University named after G.I. Nosov». Phone: (8-3519) 29-85-56. E-mail:
[email protected]. Zaslavets Boris Ivanovich – Candidate of Technical Sciences, the professor of chair of power supply of the industrial enterprises, FSEI HPE «Magnitogorsk State Technical University named after G.I. Nosov». Phone: 29-84-79. E-mail:
[email protected].
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