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Voskanjan Karen Varuzhanovich -
Moscow State University of Civil Engineering (MSUCE)
Lecturer Department of Construction of Nuclear Facilities
+7(926)1494825, Moscow State University of Civil Engineering (MSUCE), 26, Jaroslavskoe shosse, Moscow, 129337, Russia;
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.
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Lavdanskiy Pavel Aleksandrovich -
Moscow State University of Civil Engineering (MSUCE)
Doctor of Engineering, Professor, Department of Construction of Nuclear Facilities
+7(926)9104051, Moscow State University of Civil Engineering (MSUCE), 26, Jaroslavskoe shosse, Moscow, 129337, Russia;
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.
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Solovev Vitaliy Nikolaevich -
Moscow State University of Civil Engineering (MSUCE)
Doctor of Engineering, Professor, Department of Construction of Nuclear Facilities
+7(916)0143218, Moscow State University of Civil Engineering (MSUCE), 26, Jaroslavskoe shosse, Moscow, 129337, Russia;
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.
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Sichev Boris Sergeevich -
Moscow Radiotechnical Institute of Russian Academy of Sciences
Doctor of Engineering, Department head
+7-(499)-616-39-54, Moscow Radiotechnical Institute of Russian Academy of Sciences, 132, Varshavskoe shosse, Moscow, Russia, 117519;
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.
The paper presents the results of the estimation of air activation by argon-41 induced by accelerated protons in 18 MeV Cyclotron. It has been demonstrated that activity of air is below significant minimum at proton current of 150 microamps.
DOI: 10.22227/1997-0935.2012.1.119 - 121
References
- Gordeev I.V., Kardashev D., Malyshev A.V. Jaderno-fizicheskie konstanty : spravochnik [Nuclear-physical constants : reference book], Gosatomizdat, Moscow, 1963.
- Beckurts K.H. and Wirtz K. Neutron Physics. Springer-Verlag NY.
- Price B.T., Horton C.C. and Spinney K.T. Radiation Shielding. Pergamon Press, New York, 1957.
- Broder D.L. and others. Beton v zashhite jadernyh ustanovok [Concrete in the protection of nuclear facilities. Ed. 2 nd.], Moscow, Atomizdat, 1973.
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Ibragimov Ruslan A. -
Kazan State University of Architecture and Engineering (KSUAE)
Candidate of Technical Sciences, Associate Professor, Head of the Department of Technology of building processes, Kazan State University of Architecture and Engineering (KSUAE), 1 Zelenaya st., Kazan, 420043, Russian Federation.
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Korolev Evgeny V. -
Moscow State University of Civil Engineering (National Research University) (MGSU)
Doctor of Technical Sciences, Professor, Vice rector, Moscow State University of Civil Engineering (National Research University) (MGSU), 6 Yaroslavskoe shosse, Moscow, 129337, Russian Federation.
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Deberdeev Timur R. -
Kazan National Research Technological University (KNRTU)
Doctor of Technical Sciences, Professor, Head of the Department of Technologies for processing polymers and composite materials, Kazan National Research Technological University (KNRTU), 68 Karl Marx st., Kazan, 420015, Russian Federation.
Introduction. The article presents the results of a study to determine the influence of introduction method, type and concentration of plasticizing additives on the structure parameters and properties of gypsum stone obtained using gypsum cement treated in a vortex layer apparatus. Materials and methods. The G-5 BII gypsum cement was used for the investigation. The physicomechanical properties of the gypsum stone were determined in accordance with standard procedures, specific surface area was determined by air permeability, X-ray patterns were taken by means of the D2 Phaser diffractometer. Results. The data were obtained from 11 compositions of gypsum binder processed in the vortex layer apparatus and compared with a reference composition in the sense of the specific surface of the binder, mineralogical composition and physicomechanical characteristics of the gypsum stone. Conclusions. As a result of the investigation, it was revealed that the processing of the gypsum binder in the vortex layer apparatus leads to an increase in the specific surface up to 2 times. Modification of gypsum with MF superplasticizer significantly increases the ultimate compression strength (by 323 %) and bending strength (by 218 %) of the gypsum stone, as compared with the initial composition. Meanwhile the combined activation of gypsum with superplasticizers leads to a sharp decrease in strength and a significant slowdown in hydration. The greatest increase in the strength of the gypsum stone is observed when modifying activated gypsum. So, depending on the type of superplasticizer, the compression strength increases by 100 to 302 %, and bending strength by 86 to 218 %. Also this significantly reduces the gypsum stone overall porosity (down to 23 %) and softening coefficient (down to 51%).
DOI: 10.22227/1997-0935.2019.3.293-300