Investigation of the process of vibrorheology of cement concrete solutions with the external source of dynamic effect

• Autorzy: Pilipenko V.

Warianty tytułu

RU

Issledovanie processa vibroreologii cementno-betonnykh rastvorov s vneshnim istochnikom dinamicheskogo vozdejjstvija

• Języki publikacji: EN

Abstrakty

EN

RU

Słowa kluczowe

EN

cement concrete solution; turbulence; mixing; viscosity; dynamic effect; mathematical model; theoretical research

• Wydawca: -
• Czasopismo: Teka Komisji Motoryzacji i Energetyki Rolnictwa
• Rocznik: 2014
• Tom: 14
• Numer: 1
• Opis fizyczny: p.200-210,fig.,ref.

Twórcy

autor

Pilipenko V.

• Volodymyr Dahl East-Ukrainian National University, Molodizhny bl., 20а, Lugansk, 91034, Ukraine

Bibliografia

• 1. Alekseev S., Rosenthal N., 1976.: Corrosion rigidy of ferroconcrete structures in aggressive industrial environments: monograph. – M.: Stroyizdat. – 205. (in Russian).
• 2. Bazhenov Yu., 1987.: Technology of concretes: monograph. – M.: Higher school. – 415. (in Russian).
• 3. Bratchun V., Zolotarev V., Pakter M., Bespalov V., 2011.: Physical chemical mechanics of building materials: the textbook for the students of higher schools. Edit. 2, rev. and add. – Makiivka- Kharkiv: Donnbas. – 336. (in Ukrainian).
• 4. Cherny L, 1988.: Relative models of continuous media. - M.: Nauka. – 288. (in Russian).
• 5. Chernyavsky V., 2002.: Adaptation of concrete: monograph. – Dniepropetrovsk: New ideology. – 115. (in Ukrainian).
• 6. Dmitrieva E., 2013.: Microorganisms - Biodestructors of underground sewerage facilities. Water and ecology. Problems and solutions, № 1, 20-39. (in Russian).
• 7. Gusev B., Kondrashchenko V., Maslov B., Faivusovich A., 2006.: Structure formation of composites and their properties. – M.: Nauchnyi mir, ill. – 560. (in Russian).
• 8. Loitsiansky L. 2003.: Mechanics of liquid and gas. – M.: Drofa. – 900. (in Russian).
• 9. Lubarskaya G., Rubetskaya T., 1984.: Effect of the concentration of corrosive substances on the rate of corrosion of concrete type II. Researches in the field of protection of concrete and reinforced concrete from corrosion in aggressive environments. – M.: Stroyizdat. – 23-26. (in Russian).
• 10. Moskvin V., Ivanov F., Alekseev S., Gusev Eu., 1980.: Corrosion of concrete and reinforced concrete, methods of their protection: monograph. – M.: Stroyizdat. – 536. (in Russian).
• 11. Nigmatulin R., 1987.: Dynamics of multiphase medium, part 1. – М.: Nauka. – 414. (in Russian).
• 12. Pilipenko V., 2012.: Mathematical model-building of reological and hermodynamical processes in modified concrete mix at vibro impact compact method of comression. TEKA Commission of Motorization and energetics in agriculture – Vol. 12, № 4, 204-209.
• 13. Pilipenko V., 2013.: Mathematical model-building of relax processes taking place in concrete mix at vibro impact compact deformation. TEKA Commission of Motorization and energetics in agriculture – Vol. 13, № 3, 175-181.
• 14. Pukhnarenko Y., 2008.: Current status and prospects of usage of fulleroid nanostructures in cement compositions. Siberian Industrialist. № 3, 30-31. (in Russian).
• 15. Punagin V., 2010.: Properties and technology of beton for high altitude monolithic construction. TEKA Commission of Motorization and Power Industry in Agriculture. V. XB, p. 114-119.
• 16. Rudenko N.N., 2010.: The development of conception of new generation concretes. TEKA Commission of Motorization and Power Industry in Agriculture. V. XB, p. 128-133.
• 17. Sheikin A., Chekhovsky Yu., Brusser M., 1979.: Structure and properties of cement concretes. – M.: Stroyizdat. 343. (in Russian)/
• 18. Trambovetskiy V., 2008.: Prospects for concrete improving. Technologies of concretes, № 7, 8-10. (in Russian).
• 19. Wollis G., 1982.: One-dimensional two-phase flow. M.: Mir. 456. (in Russian).
• 20. Ziegler G., 1976.: Extremal principles of thermodynamics of irreversible processes and mechanics of continuous medium. – M.: Mir. – 315. (in Russian).