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Fedosov Sergey Viktorovich -
Ivanovo State Architecturally-building University
Acad. of RAASN, Doctor tech. Sciences, Professor, rector of
+7-(4932)-32-85-40, Ivanovo State Architecturally-building University, 20, 8-th March, Ivanovo, Russia, 153037;
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Tanichev Maxim Vladimirovich -
Ivanovo State Architecturally-building University
Post-graduate Student
+7-(908)-564-64-42, +7-(4932)-42-60-13, Ivanovo State Architecturally-building University, 20, 8-th March, Ivanovo, Russia, 153037;
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Akulova Marina Vladimirovna -
Ivanovo State Polytechnic University (IVGPU)
Doctor of Technical Sciences, Professor, counselor, Russian Academy of Architectural and Building Sciences (RAASN), head, Department of Con- struction Materials Science, Special Technologies and Technological Facilities department, Ivanovo State Polytechnic University (IVGPU), office 305, 20 8-th Marta street, Ivanovo, 153037, Russian Federation;
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Slashchev Roman Valerievich -
Ivanovo State University of Chemistry and Technology
(ISTUCT)
student, Ivanovo State University of Chemistry and Technology
(ISTUCT), 7 F. Engels St., Ivanovo, 153000, Russian Federation.
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Shutov Dmitriy Alexandrovich -
Ivanovo State University of Chemistry and Technology
Ph.D., Associated Professor
+7-(920)-675-39-25, Ivanovo State University of Chemistry and Technology, 7, F. Engels, Ivanovo, 153000;
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The subject matter of the article represents summarized findings of the variance analysis of the
fractional factorial experiment (the Latin Matrix). The items analyzed collectively by the coauthors
include the discharge current, the pressure of the orifice gas, or the air, and the period of exposure to
the direct current of the glow discharge. The properties analyzed by the coauthors include the water
absorption capacity, the wettability, and the capillary rise of the repair vlieseline. The discharge current
range was 20-100 mA, the pressure range was 50-200 Pa and the treatment time range was
15-120. The experiment was conducted according to the Latin matrix method, and the analysis of
variance (ANOVA) was used to check the influence of the discharge current, pressure and the treatment
time onto the hydrophilic properties of the material. The coauthors have demonstrated that the
discharge parameters are an insignificant factor in comparison to the exposure period.
DOI: 10.22227/1997-0935.2012.9.172 - 178
References
- Maksimov A.I. Teoriya neravnovesnykh protsessov tekhnologii elektronnykh priborov [Nonequilibrium Processes in Electronic Appliances]. Moscow, IKhNR RAN Publ., 1984, 306 p.
- Kutepov A.M., Zakharov A.G., Maksimov A.I. Vakuumno-plazmennoe i plazmenno-rastvornoe modifitsirovanie polimernykh materialov [Vacuum-plasma and Liquid-plasma Modification of Polymers]. Moscow, Nauka Publ., 2004, 496 p.
- Fedosov S.V., Mel’nikov B.N., Akulova M.V., Sharnina L.V. Primenenie tleyushchego razryada v stroitel’noy i tekstil’noy promyshlennosti [Application of the Glow Discharge in the Civil Engineering and Textile Industries]. Ivanovo, IGKhTU Publ., IGASU Publ., 2008, 236 p.
- Sharnina L.V. Nauchnye osnovy i tekhnologii otdelki tekstil’nykh materialov s ispol’zovaniem nizkotemperaturnoy plazmy, novykh preparatov i sposobov kolorirovaniya [Fundamentals and Technologies of Treatment of Textiles by the Low-temperature Plasma, New Preparations and Coloration Techniques]. 2006, 335 p.
- Rabinovich F.N. Dispersno-armirovannye betony [Fibre-reinforced Concretes]. Moscow, Stroyizdat Publ., 1989, 174 p.
- Elin V.K. Fibrobeton, armirovannyy voloknami, modifitsirovannymi plazmoy tleyushchego razryada [Glow Discharge Plasma Modifi cation of the Fibre-reinforced Concrete]. Ivanovo, 2006, 155 p.
- Fedosov S.V., Akulova M.V., Tanichev M.V., Shutov D.A. Issledovanie vliyaniya nizkotemperaturnoy plazmy tleyushchego razryada na gidrofil’nye svoystva remontnogo flizelina [Research of the Influence of Low-temperature Glow Discharge Plasma Treatment on Hydrophylic Properties of Vlieselinebased Wallpaper]. Vestnik MGSU [Proceedings of Moscow State University of Civil Engineering]. 2012, no 1, pp. 63—67.
- Fedosov S.V., Akulova M.V., Tanichev M.V. Modifi katsiya rulonnykh stenovykh materialov nizkotemperaturnoy plazmoy tleyushchego razryada na primere remontnogo flizelina [Modification of Roll Wallpaper by the Low-temperature Glow Discharge Plasma Exemplified by Repair Vlieseline]. Collected works of the 18th International Conference of Science and Technology “Information Media of the Higher Education”. Ivanovo, 2011, pp.195—199.
- Akhnazarova S.L., Kafarov V.V. Optimizatsiya eksperimenta v khimii i khimicheskoy tekhnologii [Experiment Optimization in Chemistry and Chemical Technology]. Moscow, Vyssh. Shk. Publ., 1978, 319 p.
- Rybkin V.V., Titov V.A. Kinetika i mekhanizmy vzaimodeystviya okislitel’noy plazmy s polimerami [Kinetics and Mechanisms of Interaction between Oxidizing Plasma and Polymers]. Entsiklopediya nizkotemperaturnoy plazmy [Low-temperature Plasma Encyclopedia]. Moscow, Yanus Publ., 2005, vol. 8-1, pp. 130—170.
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Miram Andrey Olegovich -
Moscow State University of Civil Engineering (MGSU)
Candidate of Technical Sciences, Professor, Department of Heat Engineering and Heat and Gas Supply, Moscow State University of Civil Engineering (MGSU), 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation; +7 (499) 183-26-92;
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.
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Belov Vitaliy Mikhaylovich -
Moscow State University of Civil Engineering (MGSU)
Candidate of Technical Sciences, Associate Professor, Department of Heat Engineering and Heat and Gas Supply, Moscow State University of Civil Engineering (MGSU), 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation; +7 (499) 183-26-92;
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.
The authors analyze the role of self-contained heat sources in the process of replacement of organic fuel by nuclear fuel. The authors also consider alternative sources of heat supply and practical implementation of systems of nuclear heat supply.The authors argue that various technologies require a wide range of steam capacities (0.1...10 MPA) and that the distribution of its quantity is uneven: up to 60 % of steam consumed at the pressure of 0.8...1.4 MPa and up to 25 % — t the pressure of 0.5...0.8 MPa.The authors address one of major challenges of the energy consumption market — reduction of the share of fossil fuels in the fuel and energy mix of Russia. Fossil fuels may be replaced by the nuclear power if atomic sources are used not only in the production of electricity and heat supplies for end users, but also as sources of thermal power for industrial purposes.Generation of heat for industrial purposes is more complicated, particularly when steam is required as a heat carrier. One of solutions under consideration is the use of high-temperature water to extract steam for heating purposes.
DOI: 10.22227/1997-0935.2013.1.156-158
References
- Nemchinova A.S., Peysakhovich V.Ya. Osnovnye zakonomernosti formirovaniya rezhimov teplopotrebleniya promyshlennykh predpriyatiy [Basic Patterns of Heat Consumption Modes of Industrial Enterprises]. Promyshlennaya teploenergetika [Industrial heat and Power Engineering]. 1998, no. 11, pp. 44—48.
- Dement'ev B.A. Yadernye energeticheskie reaktory [Nuclear Power Reactors]. Moscow, 1984, 280 p.
- Yablokov A.V. Za i protiv yadernoy energetiki [Nuclear Power Engineering: Pros and Cons]. Moscow, Media-PRESS Publ., 2011, 248 p.
- Grigor'ev V.A., Zorin V.M., editors. Teplovye i atomnye elektricheskie stantsii [Thermal and Nuclear Power Plants]. Moscow, Energoizdat Publ., 1989, 608 p.
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Gustov Yuriy Ivanovich -
Moscow State University of
Civil Engineering (MGSU)
Doctor of Technical Sciences, Professor, Department
of Mechanical Equipment, Elements of Machines and Technology of Metals
8 (499) 183-94-95, Moscow State University of
Civil Engineering (MGSU), 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation;
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.
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Lyubushkin Kirill Aleksandrovich -
Moscow State University of Civil Engineering
(MGSU)
postgraduate student, Department of Mechanical Equipment,
Elements of Machines and Technology of Metals
8 (499) 183-
94-95, Moscow State University of Civil Engineering
(MGSU), 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation;
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.
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Orekhov Aleksey Aleksandrovich -
Moscow State University of Civil Engineering
(MGSU)
postgraduate student, Department of Mechanical Equipment,
Elements of Machines and Technology of Metals
8 (499) 183-
94-95, Moscow State University of Civil Engineering
(MGSU), 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation;
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.
The article covers the concepts, definitions and correlations of parameters of worn surfaces
within the coordinate system of relative pressures and convergences of interacting elements of
construction machines.
The authors provide their findings based on the research of microtopographic and tribological
engineering parameters of scoop hinges of construction drags and fused crushing plates of jaw
crushers. As for the drag hinges, the friction pair is to include steel 110Г1ZL and X-5 padding that
demonstrates high resistance to friction (=1.04) and low temperature of frictional heating (= 90
°C). Mobile plates of jaw crushers need electrodes VSN-9 and TsN-16 for padding purposes, as they
demonstrate the biggest frictional fatigue values (= 2.76 and 2.62, respectively) and insignificant
temperature of heating of friction surfaces (9.4 and 4.9 °C). Electrodes TsN-16, T-590 and KBKh-45
are recommended for fixed plates.
Microtopographic parameters of worn friction surfaces are used to analyze the main tribological
engineering parameters of operating elements and joints of construction machines and items of
equipment.
DOI: 10.22227/1997-0935.2012.9.179 - 184
References
- Gustov Yu.I. Povyshenie iznosostoykosti rabochikh organov i sopryazheniy stroitel’nykh mashin [Improvement of Wearability of Operating Elements and Joints of Construction Machines]. Moscow, MGSU Publ., 1994, 529 p.
- Korobko V. I. Zolotoe sechenie i problemy garmonii sistem [The Golden Section and Problems of Harmony of Systems]. CIS ASV Publ., Moscow, 1998, 373 p.
- Chihos H. Sistemnyy analiz v tribonike [The System Analysis in Tribology]. Moscow, MIR Publ., 1982, 351 p.
- Gustov Yu.I. Tribotekhnika stroitel’nykh mashin i oborudovaniya [Tribological Engineering of Construction Machines and Equipment]. Moscow, MGSU Publ., 2011, 192 p.
- Hebda M., Wachal A.. Trybologja. Wydawnictwa naukowo-techniczne. Warszawa, 1980, 611 p.
- Petrescu Florin Nicolae. Trjbologie. Institutul de Constructii Bucuresti. 1986, 275 p.
- Gustov Yu.I., Gustov D.Yu., Voronina I.V. Metodologiya opredeleniya tribotekhnicheskikh pokazateley metallicheskikh materialov [Methodology of Identification of Tribological Parameters of Metal Materials]. Collected works of the 16th Slovak-Russian-Polish Seminar “Theoretical Basics of Construction”. Zilina, Slovak Republic, 2007, pp. 339—342.
- Babichev A.P., Babushkina N.A., Bratkovskiy A.M. Fizicheskie velichiny: spravochnik [Physical Values: Reference Book]. Moscow, Energoatomizdat Publ., 1991, 1232 p.
- Gustov Yu.I., Voronina I.V. Modernizatsiya i remont samokhodnykh mashin [Modernization and Repair of Self-propelled Machines]. Materials of International Scientific and Technical Conference «Interstroymekh-2007». Samara, SGASU Publ., 2007, pp. 238—242.