Abstract
In this chapter, the mechanism of interaction between the magnetic field and mixing water and its influence on concrete strength is studied. The changes in such parameters as surface tension, dielectric constant, temperature, redox potential, hydrogen ion content, and density in the process of water activation are found in dependence on the strength of the electric current, the activation time, and the degree of water mineralization. A tendency is established to harden the contact layers of concrete aggregates on electric pulse crushing during hardening, regardless of their mineralogical composition. The processing of cement for the preparation of concretes and mortars is considered using mortar mixtures of cement, activated by high-voltage corona discharge. Moreover, the processing of cement dough in concrete is studied and the mechanism of the influence of the electric field on the hardening of cements is explained in addition to the effects at the molecular and ionic levels. Finally, the ultrasonic and acoustic activation of concrete mixtures is reviewed and estimated.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
References
V.A. Abalakin, A.D. Bulat, Modern Problems of Building Materials Science (Kazan, 1996), p. 45. (in Russian)
A. Abba, V.A. Matvienko, Computer Materials Science and Quality Assurance (Odessa, 1997), p. 105. (in Russian)
A. Abbud, Experimental Studies and Methods of Calculation of Oblique Prestressed Reinforced Concrete Columns Taking into Account Complete Diagrams of Deformation of Materials, PhD thesis (Technical Sciences), Rostov-on-Don, p. 197, 1987 (in Russian)
V.F. Afanasieva, Ind. Civil Constr. 8, 25 (1993) (in Russian)
S.I. Agajanyan, Modern Problems of Building Materials Science (Kazan, 1996), p. 85. (in Russian)
B. Agathe, B. Laury, B. Laetitia, C. Florian, J. Aurélien, T.-r. Jean Michel, Cem. Concr. Compos. 103, 233 (2019)
A.G. Aivazov, Strength and Crack Resistance of Longitudinal Sections of Bending Ring Elements Under the Action of Transverse Forces, PhD thesis (Technical Sciences). Moscow, p. 141, 1984 (in Russian)
I.N. Akhverdov, Reinforced Concrete Centrifuged Pressure Pipes (Stroyizdat, Moscow, 1969) (in Russian)
I.N. Akhverdov, All-Russian Scientific and Technical Meeting: Technology of Forming Reinforced Concrete Products (1979), p. 3. (in Russian)
I.N. Akhverdov, Fundamentals of Concrete Physics (Stroyizdat, Moscow, 1981) (in Russian)
V.A. Akopyan, E.V. Rozhkov, A.N. Soloviev, S.N. Shevtsov, A.V. Cherpakov, Identification of Damages in Elastic Structures: Approaches, Methods, Analysis (Southern Federal University Press, Rostov-on-Don, 2015) (in Russian)
V.A. Akopyan, A.N. Solov’ev, A.V. Cherpakov, S.N. Shevtsov, Rus. J. Nondestr. Test. 49(10), 579 (2013)
G.A. Aksomitas, Strength of Short Centrifuged Annular Columns with Longitudinal Reinforcement of Class At-U at Short-term Compression, PhD thesis (Technical Sciences). Vilnius, p. 261, 1984 (in Russian)
H. Aktham, N.M. Alani, A. Bunnori, T. Noaman, T.A. Majid, Constr. Build. Mater. 209, 395 (2019)
A.F.-K. Al-Khawaf, A.I. Nikulin, Bull. BSTU Named After V.G. Shukhov 5, 66 (2019) (in Russian)
M.G. Altykis, R.Z. Rakhimov, Univ. News. Constr. 2, 7 (1992) (in Russian)
A.S. Arbeniev, Winter Concreting with Electric Heating of the Mixture (Stroyizdat, Moscow, 1970) (in Russian)
R.D. Azelitskaya, Acoustic and Magnetic Water Treatment (Novocherkassk Polytechnical Institute, Novocherkassk, 1966), p. 37. (in Russian)
A.G. Azizov, Reinforced Concrete Columns of Various Flexibility with Combined Prestressing of High-Strength Reinforcement, PhD thesis (Technical Sciences), Rostov-on-Don, p. 217, 1983 (in Russian)
V.I. Babushkin, A.S. Koshmay, I.F. Ponomarev, A.G. Kholodny, Cement 9, 8 (1986) (in Russian)
V.I. Babushkin, V.A. Matvienko, S.G. Vasyukevich, Y.A. Lagunov, Univ. News. Constr. 2, 47 (1993) (in Russian)
A.N. Bambura, Questions of Strength, Deformability and Crack Resistance of Reinforced Concrete (Rostov-on-Don Engineering Building Institute Press, Rostov-on-Don, 1980), p. 19. (in Russian)
Y. Bamnios, E. Douka, A. Trochidis, J. Sound Vib. 256(2), 287 (2002)
V.M. Batashev, Proceedings of the Institute Energosetproekt, vol 6 (Moscow, 1975), p. 70. (in Russian)
Y.M. Bazhenov, Concr. Technol. 1, 6 (2005) (in Russian)
Y.M. Bazhenov, A.G. Komar, Technology of Concrete and Reinforced Concrete Products: Textbook for Universities (Stroyizdat, Moscow, 1984) (in Russian)
M.Y. Bekkiev, The Influence of the Cross-Sectional Shape on the Strength, Deformability and Crack Resistance of Bent Elements of Heavy and Tuff Concrete, PhD thesis (Technical Sciences), Rostov-on-Don, p. 225, 1985 (in Russian)
G.I. Berdichevsky, T.M. Pezold, V.G. Lastochnik, Concr. Reinf. Concr. 2, 36 (1977) (in Russian)
G.I. Berdov, S.I. Linnik, Univ. News. Constr. Archit. 7, 68 (1983) (in Russian)
O.Y. Berg, Build. Archit. 10, 41 (1967) (in Russian)
A.F. Bernatsky, Y.V. Tselebrovsky, V.A. Chunchin, in Electrical Properties of Concrete, ed. by Y. N. Vershinin, (Energy, Мoscow, 1980) (in Russian)
L.A. Bessonov, Theoretical Foundations of Electrical Engineering. Electromagnetic Field: Textbook for Electric Technical, Energetical and Instrument Making Specialities of Universities, 8th edn. (High School, Мoscow, 1986) (in Russian)
A.I. Biryukov, A.N. Plugin, Implementation of the Regional Integrated Scientific and Technical Target Program “Concrete” (Kharkov, 1983), p. 56. (in Russian)
A.I. Biryukov, A.N. Plugin, I.A. Chulkov, Improving the Durability of Concrete Transport Structures, vol 714 (Мoscow, 1982), p. 57. (in Russian)
A.I. Biryukov, A.N. Plugin, et al., Physico-chemical Mechanics of Dispersed Systems and Materials (Naukova Dumka, Kiev, 1980), p. 328. (in Russian)
A.I. Biryukov, A.N. Plugin, et al., Physico-chemical Mechanics of Dispersed Systems and Materials (Kiev, Naukova Dumka, 1980), p. 329. (in Russian)
A.I. Biryukov, Y.A. Spirin, L.P. Matskela, Implementation of the Regional Integrated Scientific and Technical Target Program “Concrete” (Kharkov, 1983), p. 62. (in Russian)
J. Bohm, Electrostatic Precipitators (Elsevier, Amsterdam, 1982)
M.I. Brusser, Investigation of the Structural Porosity of Concrete and the Factors that Determine It, PhD thesis (Technical Sciences), Moscow, 1971 (in Russian)
A.D. Bulat, Electrophysical Activation of Cement Binders (Russian Engineering Academy Press, Мoscow, 2002) (in Russian)
A.D. Bulat, Current State and Prospects of Development of Building Materials Science (Samara, 2004), p. 91. (in Russian)
A.D. Bulat, Y.S. Danilova, Current State and Prospects of Development of Building Materials Science (Samara, 2004), p. 94. (in Russian)
N.P. Burmistrov, Transp. Constr. 9, 47 (1967) (in Russian)
L. Butler, J.S. West, S.L. Tighe, Cem. Concr. Res. 41(10), 1037 (2011)
A. Caron, L. Dascalescu, J. Electrostat. 61(1), 43 (2004)
A.N. Chernov, Building Materials Based on Industrial Waste (UralNIIstromproekt, Chelyabinsk, 1982), p. 199. (in Russian)
A.N. Chernov, Materials and Structures for Prefabricated Construction of Thermal Aggregates (UralNIIstromproekt, Chelyabinsk, 1982), p. 119. (in Russian)
A. Cherpakov, I. Egorochkina, E. Shlyakhova, A. Kharitonov, A. Zarovny, S. Dobrohodskaya, MATEC Web Conf. 106, 04009 (2017)
A.V. Cherpakov, E.A. Shlyakhova, I.O. Egorochkina, Y.A. Kokareva, Mater. Sci. Forum 931, 373 (2018)
A.V. Cherpakov, A.N. Soloviev, V.V. Gricenko, O.U. Goncharov, Def. Sci. J. 66(1), 44 (2016)
V.E. Chubarov, A.G. Umarov, V.D. Mayilyan, Eng. Bull. Don, 1 (2017) http://www.ivdon.ru/ru/magazine/archive/n1y2017/3988 (in Russian)
M.H.F. Dado, O.A. Shpli, Int. J. Solids Struct. 40, 5389 (2003)
Y.S. Danilova, Activation of Cement Mortars Under the Influence of an Electric Field, PhD thesis (Technical Sciences), Samara, 2002 (in Russian)
T. Darko, R. Miguel Fernández, M. Aurelio, J. Adv. Concr. Technol. 16, 396 (2018)
A.D. Dimarogonas, Eng. Fract. Mech. 55, 831 (1996)
S.A. Dmitriev, Research of Strength, Stiffness and Crack Resistance of Reinforced Concrete Structures. Issue 26 (Stroyizdat, Moscow, 1962), p. 5. (in Russian)
S.A. Dmitriev, V.M. Batashev, Crack Resistance and Deformability of Conventional and Prestressed Reinforced Concrete Structures (Stroyizdat, Moscow, 1965), p. 5. (in Russian)
S.A. Dmitriev, V.M. Batashev, Features of Deformations of Concrete and Reinforced Concrete and the Use of Computers to Assess Their Influence on the Behavior of Structures (Stroyizdat, Moscow, 1969), p. 157. (in Russian)
V.S. Dorofeev, V.N. Vyrovoy, V.I. Solomatov, Ways to Reduce the Consumption of Building Materials and Structures: Textbook (Kiev, 1989) (in Russian)
V.G. Dubinina, Development of Optimal Parameters for Centrifugation of Reinforced Concrete Gravity Pipes, PhD thesis (Technical Sciences), Nizhny Tagil, 2002 (in Russian)
S.S. Dukhin, N.A. Mischyuk, N.I. Rukobratsky, Colloid J. 1, 17 (1988) (in Russian)
M.P. Dushenin, Concrete Based on Electroactivated Cement Suspension and a Mixture of Aggregates with Low Voidness, PhD thesis (Technical Sciences), Leningrad, 1990 (in Russian)
S.V. Dyakov, The Effect of Electromagnetic Influence on the Properties of Concrete Mixture and Concrete, PhD thesis (Technical Sciences), Vladimir, 1999 (in Russian)
V.A. Evdokimov, O.V. Smirnov, A.F. Yudina, Technology of Construction of Buildings and Structures (Leningrad Engineering Building Institute, Leningrad, 1984), p. 5. (in Russian)
A.V. Fedorov, V.N. Aksenov, Eng. Bull. Don 3 (2018) http://www.ivdon.ru/ru/magazine/archive/n3y2018/5081 (in Russian)
M.F. Ferrotto, O. Fischer, L. Cavaleri, Mater. Struct. 51, 44 (2018)
N.I. Gamayunov, J. Appl. Chem. 5, 456 (1983) (in Russian)
G.N. Gavrilov, B.V. Kadushkin, N.M. Romaschenko, Proceedings IV All-Union Conference (Nikolaev, 1988), p. 27. (in Russian)
G.N. Gavrilov, K.V. Petrov, Concr. Reinf. Concr., 6 (1995) (in Russian)
E.D. Gil’man, Abstract Collection. General Construction Issues. Domestic Experience (Мoscow, 1973), p. 10. (in Russian)
E.D. Gil’man, Z.M. Larionova, A.I. Koketkina, Issues of Strength, Deformability, Crack Resistance of Reinforced Concrete (Rostov-on-Don, 1976), p. 23. (in Russian)
B.M. Gladyshev, Mechanical Interaction of Structural Elements and Concrete Strength (Vishcha School, Kharkov, 1987) (in Russian)
A.E. Golikov, Build. Archit. 6, 5 (1983) (in Russian)
Y.I. Gol’tsov, S.A. Stel’makh, E.M. Scherban’, H.S. Yavruyan, Sci. Stud. 4(13) (2012) https://naukovedenie.ru/PDF/11trgsu412.pdf (in Russian)
N.P. Gorlenko, Low-energy Activation of Cement and Oxide Binding Systems by Electric and Magnetic Fields, DrSc thesis (Technical Sciences), Tomsk, 2007. (in Russian)
N.P. Gorlenko, G.E. Dunaevsky, Y.S. Sarkisov, Bull. Tomsk State Archit. Constr. Univ. 2, 173 (2003) (in Russian)
F.K. Gorsky, Mechanism and Kinetics of Crystallization (Science and Technique, Minsk, 1969), p. 328. (in Russian)
I.G. Grankovsky, Structure Formation in Mineral Binding Systems (Naukova Dumka, Kiev, 1984) (in Russian)
M.N. Grigoryan, T.V. Polyakova, Y.A. Kokareva, I.A. Parinov, A.V. Cherpakov, IOP Conf. Ser. Mater. Sci. Eng. 1083, 012016 (2021)
I.M. Grushko, V.A. Biryukov, I.I. Selivanov, I.F. Kiselev, Univ. News. Constr. Archit. 2, 44 (1986) (in Russian)
I.M. Grushko, A.G. Ilyin, E.D. Chikhladze, Improving the Strength and Endurance of Concrete (Vishcha School, Kharkov, 1986) (in Russian)
I.M. Grushko, S.T. Rashevsky, A.D. Nosach, Implementation of the Regional Integrated Scientific and Technical Target Program “Concrete” (Kharkov, 1983), p. 49. (in Russian)
B.V. Gusev, Proceedings of the II All-Russian Conference on Concrete and Reinforced Concrete, vol 1 (Moscow, 2005), p. 17. (in Russian)
Y.P. Gushcha, Influence of Inelastic Properties of Reinforced Concrete on Work and Distribution of Forces in Statically Indeterminate Structures. Scientific Research Institute of Concrete and Reinforce Concrete (Stroyizdat, Moscow, 1975), p. 44. (in Russian)
Y.P. Gushcha, L.L. Lemysh, Stress-Strain State of Concrete and Reinforced Concrete Structures. Scientific Research Institute of Concrete and Reinforce Concrete (Stroyizdat, Moscow, 1986), p. 26. (in Russian)
D. Hiilsenberg, I. Lehmarenn, J. Non-Cryst. Solids 1, 257 (1986)
M. Ippei, L. Pietro, Cem. Concr. Res. 123, 105770 (2019)
E.I. Ivaschenko, Development of Methods for Calculating Reinforced Concrete Elements Based on Actual Deformation Diagrams of Materials, Taking into Account the Actual Change in the Area of their Cross-Sections, PhD thesis (Technical Sciences), Voronezh, p. 230, 2006 (in Russian)
K. Jae-Jin, Y. Doo-Yeol, Cem. Concr. Compos. 103, 213 (2019)
A.A. Kabanov, E.M. Zingel, Adv. Chem. 44(7), 1194 (1975) (in Russian)
A.A. Kalninya, A.P. Klyavinya, I.Y. Laumanis, Technological Mechanics of Concrete, vol 6 (Riga, 1981), p. 101. (in Russian)
A.A. Kalninya, L.G. Skogoreva, et al., Technological Mechanics of Concrete, vol 5 (Riga, 1980), p. 119. (in Russian)
N.I. Karpenko, General Models of Reinforced Concrete Mechanics (Stroyizdat, Moscow, 1996) (in Russian)
I.V. Kaschuk, Creation and Research of New Building Materials (Tomsk, 1986), p. 53. (in Russian)
L. Kefei, L. Le, Cem. Concr. Res. 124, 105811 (2019)
E.O. Kesli, V.Z. Buyal’skaya, Cellular Concrete Constructions for Residential Buildings and Their Manufacturing Technology (Leningrad, 1985), p. 53. (in Russian)
A.K. Khalyushev, M.G. Kholodnyak, K.V. Gubanov, Construction and Architecture – 2015: International Scientific-practical Conference (Rostov-on-Don, 2015), p. 400. (in Russian)
А.К. Khalyushev, М.G. Kholodnyak, M.P. Nazhuev, MATEC Web Conf. ICMTMTE 129, 05012 (2017)
A.K. Khalyushev, A.L. Mailyan, S.A. Stelmakh, E.M. Shcherban, Mater. Sci. Forum 1011, 23 (2020)
A.K. Khalyushev, S.A. Stel’makh, E.M. Shcherban, A.A. Chernil’nik, I.D. Padiev, D.Y. Sherement, Bull. Euro-Asian Sci. 11(6), 81 (2019) https://esj.today/PDF/47SAVN619.pdf (in Russian)
A.K. Khalyushev, S.A. Stelmakh, E.M. Shcherban, M.G. Kholodnyak, Heat Engineering Equipment for the Production of Building Materials, Products and Structures (Don State Technical University Press, Rostov-on-Don, 2017) (in Russian)
A.K. Khalyushev, S.A. Stel’makh, E.M. Shcherban, A.K. Sysoev, AIP Conf. Proc. 2188, 040015 (2019)
B.T. Khar’kovsky, V.P. Gulyakov, Y.G. Ushakov, Questions of Theory and Practice of Magnetic Treatment of Water Systems (Novocherkassk, 1975), p. 197. (in Russian)
M.G. Kholodnyak, E.V. Maltsev, Construction-2013: International Scientific-Practical Conference (Rostov-on-Don, 2013), p. 120. (in Russian)
M.G. Kholodnyak, E.V. Maltsev, Construction-2013: International Scientific-Practical Conference (Rostov-on-Don, 2013), p. 122. (in Russian)
M.G. Kholodnyak, M.P. Nazhuev, A.V. Zaretsky, Y.S. Fominykh, N.A. Dotsenko, Bull. Eurasian Sci., 3 (2019) https://esj.today/PDF/38SAVN319.pdf (in Russian)
M.G. Kholodnyak, S.A. Stelmakh, L.R. Mailyan, E.M. Shcherban, M.P. Nazhuev, Constr. Archit. 5(4), 229 (2017) (in Russian)
M.G. Kholodnyak, S.A. Stelmakh, E.M. Shcherban, M.P. Nazhuev, A.V. Yanovskaya, S.A. Osadchenko, Eng. Bull. Don 3 (2018) http://ivdon.ru/ru/magazine/archive/n3y2018/5047 (in Russian)
M.G. Kholodnyak, S.A. Stelmakh, E.M. Shcherban, D.A. Tretyakov, V.N. Dao, V.I. Zaikin, Bull. Eurasian Sci. 6 (2018) https://esj.today/PDF/66SAVN618.pdf (in Russian)
O.P. Kim, Issues of Designing the Construction and Structures of Highways and Bridges in Siberia (Tomsk, 1990), p. 76. (in Russian)
S.K. Kirthika, S.K. Singh, Constr. Build. Mater. 250, 118850 (2020)
A.G. Klochkov, E.A. Chistyakov, Bull. Lvov Polytech. Inst. 3(2), 15 (1966) (in Russian)
R. Klyukas, R. Vadluga, Bull. Ulyanovsk State Tech. Univ. 2(46), 43 (2009) (in Russian)
L.K. Kolesnichenko, Proceedings of Yuzhgiprocement, vol 9 (Stroyizdat, Moscow, 1967), p. 131. (in Russian)
L.K. Kolesnichenko, T.Z. Gorfinkel’, Proceedings of Yuzhgiprocement (Stroyizdat, Moscow, 1967), p. 143. (in Russian)
I.K. Kolodziy, Production of Prefabricated Reinforced Concrete Products (Vysshaya Shkola, Moscow, 1987) (in Russian)
P.G. Komokhov, Build. Mater. Equip. Technol. XXI Century 4, 36 (2002) (in Russian)
S.F. Koren’kova, A.D. Bulat, Y.S. Danilova, Modern Investment Processes and Construction Technologies, vol 3, Pt. 2 (Russian Engineering Academy Press, Moscow, 2002), p. 20. (in Russian)
A.S. Korolev, A.A. Voroshilin, B.Y. Trofimov, Build. Mater. 5, 8 (2005) (in Russian)
E.V. Korolev, Y.M. Bazhenov, V.A. Smirnov, Construction Materials of a Variatropic-Frame Structure: Monograph (Moscow State Building University Press, Moscow, 2011) (in Russian)
A.C. Koshmay, O.P. Mchedlov-Petrosyan, Cement 7, 4 (1980) (in Russian)
A.V. Kosolapov, S.M. Sergeev, Univ. News. Build. Archit. 8, 131 (1982) (in Russian)
A.A. Krasnoshchekov, B.V. Sobol, A.N. Solov’ev, A.V. Cherpakov, Rus. J. Nondestruct. Test. 47(6), 412 (2011)
N.N. Kruglitsky, Rheology of Concrete Mixture and Its Technological Tasks: IV All-Union Symposium (Yurmala, 1982), p. 192. (in Russian)
N.N. Kruglitsky, Physico-chemical Mechanics of Dispersed Systems in Strong Pulsed Fields (Naukova Dumka, Kiev, 1982) (in Russian)
B.A. Krylov, Methods of Electrical Treatment of Concrete and Their Theoretical Foundations (Moscow, 1967) (in Russian)
A.A. Kryukov, A.E. Zhdanov, Bull. V.G. Shukhov Belgorod State Tech. Univ. 1, 73 (2017) (in Russian)
A.I. Kudyakov, N.P. Dushenin, Univ. News. Constr. Archit. 10, 63 (1987) (in Russian)
A.P. Kudzis, Reinforced Concrete Structures of Annular Cross-Section (Mintis, Vilnius, 1975) (in Russian)
A.I. Kurnosov, Research of Work and Calculation of Reinforced Concrete Supports of Power Transmission Lines with Racks of Pipes Manufactured by Centrifugal Method, PhD thesis (Technical Sciences), Moscow, 1970 (in Russian)
A.N. Kuznetsov, Features of Hardening and Improvement of Concrete Properties by Discharge-Pulse Impact, PhD thesis (Technical Sciences), Saint-Petersburg, 2007 (in Russian)
L.N. Lebedev, Investigation of the Bearing Capacity and Crack Resistance of Flexible Prestressed Reinforced Concrete Elements of Annular Cross-Section, PhD thesis (Technical Sciences), Dnepropetrovsk, p. 197, 1974 (in Russian)
А.А. Ledenev et al., Bull. V.G. Shukhov Belgorod State Tech. Univ. 4, 16 (2016) (in Russian)
S.N. Leonovich, L.N. Zikeev, Durability of Centrifuged Reinforced Concrete Racks. Survey Information (Informenergo, Moscow, 1991) (in Russian)
E.L. Leus, Rheology of Concrete Mixture and Its Technological Tasks: IV All-Union Symposium (Yurmala, 1982), p. 145. (in Russian)
L.R. Mailyan, A.D. Gellerman, Automation of Design Work in Rural Construction (SevkavZNIIEPselstroy, Rostov-on-Don, 1985), p. 55. (in Russian)
R.L. Mailyan, E.D. Gil’man, News of the North-Caucasus Scientific Center of High School, vol 1 (1984), p. 6. (in Russian)
L.R. Mailyan, A.P. Korobkin, Fundamental Research and New Technologies in Building Materials Science: All-Union Conference (Belgorod Technological Institute of Building Materials, Belgorod, 1989), p. 23. (in Russian)
L.R. Mailyan, A.L. Mailyan, E.S. Ayvazyan, Eng. Bull. Don, 3 (2013) http://www.ivdon.ru/ru/magazine/archive/n3y2013/1760 (in Russian)
L.R. Mailyan, S.A. Stelmakh, A.K. Khalyushev, M.G. Kholodnyak, E.M. Shcherban, M.P. Nazhuev, Eng. Bull. Don 2 (2018) http://ivdon.ru/ru/magazine/archive/N2y2018/4832 (in Russian)
L.R. Mailyan, S.A. Stelmakh, A.K. Khalyushev, E.M. Shcherban, M.G. Kholodnyak, M.P. Nazhuev, Eng. Bull. Don 3 (2018) http://ivdon.ru/ru/magazine/archive/n3y2018/5123 (in Russian)
L.R. Mailyan, S.A. Stelmakh, A.K. Khalyushev, E.M. Shcherban, M.G. Kholodnyak, M.P. Nazhuev, Build. Archit. 6(1), 247 (2018) (in Russian)
L.R. Mailyan, S.A. Stelmakh, A.K. Khalyushev, E.M. Shcherban, M.G. Kholodnyak, M.P. Nazhuev, Bull. Eurasian Sci. 3 (2018) https://esj.today/PDF/63SAVN318.pdf (in Russian)
L.R. Mailyan, S.A. Stelmakh, M.G. Kholodnyak, A.K. Khalyushev, E.M. Shcherban, M.P. Nazhuev, Bull. Eurasian Sci. 4 (2018) https://esj.today/PDF/07SAVN418.pdf (in Russian)
L.R. Mailyan, S.A. Stelmakh, M.G. Kholodnyak, E.M. Shcherban, Sci. Stud., 4 (2017) https://naukovedenie.ru/PDF/71TVN417.pdf (in Russian)
L.R. Mailyan, S.A. Stelmakh, M.G. Kholodnyak, E.M. Shcherban, Bull. V.G. Shukhov Belgorod State Tech. Univ. 10, 52 (2017) (in Russian)
L.R. Mailyan, S.A. Stelmakh, M.G. Kholodnyak, E.M. Shcherban, Bull. North-Caucasus State Tech. Inst. 3(30), 134 (2017) (in Russian)
L.R. Mailyan, S.A. Stelmakh, M.G. Kholodnyak, E.M. Shcherban, A.K. Khalyushev, Buil. Archit. 5(4), 224 (2017) (in Russian)
L.R. Mailyan, S.A. Stelmakh, E.M. Shcherban, N.A. Dotsenko, Bull. V.G. Shukhov Belgorod State Tech. Univ. 12, 32 (2020) (in Russian)
L.R. Mailyan, S.A. Stel’makh, E.M. Shcherban, A.K. Khalyushev, A.S. Smolyanichenko, A.K. Sysoev, I.A. Parinov, A.V. Cherpakov, Appl. Sci. (Switzerland) 11(8), 3591 (2021)
L.R. Mailyan, S.A. Stelmakh, E.M. Shcherban, M.G. Kholodnyak, Buil. Archit. 4(56), 29 (2019) (in Russian)
L.R. Mailyan, S.A. Stelmakh, E.M. Shcherban, M.P. Nazhuev, Rus. J. Build. Constr. Archit. 4(60), 22 (2020)
M.A.S. Hameed, B.H. Maula, Q.M. Bahnam, Int. Rev. Civil Eng. 10(6) (2019). https://doi.org/10.15866/irece.v10i6.17061
A.A. Malodushev, Electric Heating of Foam Concrete Mixture Immediately Before Laying in the Case, PhD thesis (Technical Sciences), Saint-Petersburg, p. 151, 2000 (in Russian)
V.T. Mal’tsev, G.A. Tkachenko, N.V. Mal’tsev, Eng. Bull. Don 1 (2012) http://ivdon.ru/magazine/archive/n1y2012/726 (in Russian)
V.T. Mal’tsev, G.A. Tkachenko, N.V. Mal’tsev, I.V. Vlasenko, Sci. Stud. 3 (2012) http://naukovedenie.ru/sbornik12/12-48.pdf (in Russian)
A. Mark, B. Hans, Cem. Concr. Res. 122, 17 (2019)
V.A. Matvienko, J. Appl. Chem. 64(9), 18571861 (1991) (in Russian)
V.A. Matvienko, J. Phys. Chem. 67(7), 1536 (1993) (in Russian)
V.A. Matvienko, Electrical Activation in the Technology of Concrete and Products, DrSc thesis (Technical Sciences), Kharkov, 1993 (in Russian)
V.A. Matvienko, Resource-Saving Technologies of Building Materials, Products and Constructions (Belgorod Technological Institute of Building Materials, Belgorod, 1993), p. 90. (in Russian)
V.A. Matvienko, O.F. Chereshnya, Cement 3, 38 (1992) (in Russian)
V.A. Matvienko, V.N. Gubar’, The use of industrial waste for the production of building materials (Kiev, 1990), p. 30. (in Russian)
V.A. Matvienko, V.N. Gubar’, O.F. Chereshnya, New Technological Solutions for the Donbass Construction Industry (Kiev, 1989), p. 32. (in Russian)
V.A. Matvienko, V.N. Gubar’, Y.A. Lagunov, Resource-Saving Technologies of Building Materials, Products and Constructions (Belgorod Technological Institute of Building Materials, Belgorod, 1993), p. 27. (in Russian)
V.A. Matvienko, M.M. Sychev, V.N. Gubar’, Univ. News. Chem. Chem. Technol. 68 (1988) (in Russian)
V.A. Matvienko, S.M. Tolchin, Electrical Phenomena and Activation Effects in Concrete Technology (Makeevka, 1998) (in Russian)
G.V. Mazurenok, B.A. Plyusch, Construction and Architecture Issues, vol 12 (Minsk, 1982), p. 110. (in Russian)
R.G. Mette, M. Alexander, S. Henrik, D.L. Michel, Cem. Concr. Res. 122, 189 (2019)
D.S. Mikhanovsky, Y.L. Aradovsky, E.L. Leus, Plasticization of Concrete Mixture by Magnetic Treatment of Mixing Water at House-Building Plants (Stroyizdat, Мoscow, 1970) (in Russian)
E.E. Mikhelson, Supports for Electric Overhead Lines Made of Centrifuged Reinforced Concrete (Tsodna Publishing House, Tbilisi, 1949) (in Russian)
N. Mingjiang, W. Xihui, X. Gang, Q. Kunzan, C. Kefa, Powder Technol. 286, 789 (2015)
M.S. Minkin, D.N. Kuimov, A.D. Lukyanov, Proc. Eng. 1353 (2016)
S.A. Mironov, Theory and Methods of Winter Concreting, 3rd edn. (Stroyizdat, Мoscow, 1975) (in Russian)
O.P. Mchedlov-Petrosyan, Chemistry of Inorganic Building Materials (Stroyizdat, Moscow, 1977) (in Russian)
O.P. Mchedlov-Petrosyan, M.G. Stepanenko, Dokl. USSR Acad. Sci. 141, 172 (1961) (in Russian)
O.P. Mchedlov-Petrosyan, A.V. Usherov-Marshak, A.M. Urzhenko, Heat Release During Hardening of Binders and Concretes (Stroyizdat, Moscow, 1984) (in Russian)
A.M. Mkrtchyan, V.N. Aksenov, Eng. Bull. Don 3 (2013) http://www.ivdon.ru/ru/magazine/archive/n3y2013/1817 (in Russian)
A.M. Mkrtchyan, V.N. Aksenov, Eng. Bull. Don 3 (2013) http://www.ivdon.ru/ru/magazine/archive/n3y2013/1818 (in Russian)
A.M. Mkrtchyan, D.R. Mailyan, Eng. Bull. Don 4 (2013) http://www.ivdon.ru/ru/magazine/archive/n4y2013/2186 (in Russian)
A.K. Mohammed, C.B. Cheah, R. Mahyuddin, Constr. Build. Mater. 215, 73 (2019)
A.G. Mukha, A.V. Klimenko, V.I. Vyrodov, Implementation of the Regional Integrated Scientific and Technical Target Program “Concrete” (Kharkov, 1983), p. 61. (in Russian)
S.A.Y. Murtazaev, M.S. Mintsaev, M.S. Saydumov, S.A. Aliev, Mod. Appl. Sci. 9(4), 32 (2015)
S.A.Y. Murtazaev, M.S. Saidumov, V.S. Lesovik, N.V. Chernysheva, D.K.S. Bataev, Mod. Appl. Sci. 9(4), 233 (2015)
T.F. Nagornaya, Study of Strength and Crack Resistance of Eccentrically Compressed Reinforced Concrete Elements of Annular Cross-Section with Non-tensioned Reinforcement, PhD thesis (Technical Sciences), Dnepropetrovsk, p. 163, 1970 (in Russian)
M.P. Nazhuev, E.A. Efimenko, R.A. Tsokalo, A.S. Nasevich, A.K. Khalyushev, Eng. Bull. Don 4 (2019) http://www.ivdon.ru/ru/magazine/archive/n4y2019/5856 (in Russian)
M.P. Nazhuev, M.G. Kholodnyak, S.A. Stelmakh, New Science: Strategies and Development Vector, vol Pt. 2 (RITs AMI, Sterlitamak, 2015), p. 153. (in Russian)
M.P. Nazhuev, M.G. Kholodnyak, S.A. Stelmakh, New Science: Modern State and Development Paths, vol Pt. 2 (RITs AMI, Sterlitamak, 2016), p. 166. (in Russian)
M.P. Nazhuev, M.G. Kholodnyak, S.A. Stelmakh, New Science: Modern State and Development Paths, vol Pt. 2 (RITs AMI, Sterlitamak, 2016), p. 168. (in Russian)
M.P. Nazhuev, A.V. Yanovskaya, M.G. Kholodnyak, A.K. Khalyushev, E.M. Shcherban, S.A. Stelmakh, Eng. Bull. Don 3 (2017) http://ivdon.ru/ru/magazine/archive/N3y2017/4313 (in Russian)
M.P. Nazhuev, A.V. Yanovskaya, M.G. Kholodnyak, S.A. Stelmakh, E.M. Shcherban, S.A. Osadchenko, Bull. Eurasian Sci. 3 (2018) https://esj.today/PDF/58SAVN318.pdf (in Russian)
N.I. Netes, Concrete Mechanics and Technology (Higher School, Kiev, 1987) (in Russian)
A. Nonat, X. Lecoq, S. Gauffinet, The X Congress on the Chemistry of Cement, vol 2 (Gothenburg, 1997), p. Zii055
D.V. Obernikhin, A.I. Nikulin, Bull. V.G. Shukhov Belgorod State Tech. Univ. 4, 56 (2017) (in Russian)
K. Ogawa, H. Uchinava, K. Takemoto, Cem. Concr. Res. 10, 17 (1980)
O.A. Sediek, T.-Y. Wu, M.C. Jason, E.-T. Sherif, J. Struct. Eng. 146(6) (2020). https://doi.org/10.1061/(ASCE)ST.1943-541X.0002637
V. Orlov, A. Chichurin, J. Phys. Conf. Ser. 1425(1), 012129 (2020)
G.P. Pastushkov, Multi-storey Frame Buildings with Load-Bearing Reinforced Concrete Centrifuged Elements, DrSc thesis (Technical Sciences). Minsk, p. 487, 1994 (in Russian)
A.N. Pavlov, Y.I. Gol’tsov, L.R. Mailyan, E.M. Shcherban, S.A. Stel’makh, IOP Conf. Ser. Mater. Sci. Eng. 896, 012124 (2020)
A.N. Pavlov, Y.I. Gol’tsov, L.R. Mailyan, S.A. Stel’makh, E.M. Shcherban, IOP Conf. Ser. Mater. Sci. Eng. 896, 012123 (2020)
A.N. Pavlov, Y.I. Gol’tsov, S.A. Stel’makh, E.M. Scherban’, Sci. Rev. 10, 147 (2015) (in Russian)
G.A. Pavlova, A.N. Kuznetsov, Current State and Prospects of Development of Building Materials Science (Samara, 2004), p. 393. (in Russian)
V.T. Pertsev, D.Y. Zolotorubov, E.I. Shmit’ko, Modeling in Materials Science (Odessa, 1998), p. 22. (in Russian)
A.N. Petrov, Deformation Model of Nonlinear Creep of Reinforced Concrete and Its Application to the Calculation of Plane-Stressed Elements and Systems Of Them, PhD thesis (Technical Sciences), Moscow, p. 326, 2001 (in Russian)
K.V. Petrov, Univ. News. Constr. 11, 53 (1996) (in Russian)
V.P. Petrov, Technology and Properties of Centrifuged Concrete with a Combined Aggregate for the Supports of the Contact Network, PhD thesis (Technical Sciences), Rostov-on-Don, p. 175, 1983 (in Russian)
G.N. Pisanko, E.N. Shcherbakov, P.G. Khubova, Concr. Reinf. Concr. 8, 31 (1972) (in Russian)
A.A. Plugin, A.A. Dudin, A.A. Plugin, A.N. Plugin, Scientific Bulletin of Construction, vol 47 (Kharkov, 2008), p. 179. (in Ukrainian)
A.N. Plugin, A.A. Plugin, A.A. Dudin, et al., Bull. Odessa State Acad. Constr. Archit. 43, 197 (2010) (in Ukrainian)
A.N. Plugin, A.A. Plugin, S.V. Miroshnichenko, D.A. Plugin, O.S. Borzyak, Collection of Scientific Works of LNAU, vol 71(94) (Lugansk National, Agricultural University Press, Lugansk, 2007), p. 189. (in Ukrainian)
A.N. Plugin, A.A. Scorik, A.A. Plugin, S.V. Miroshnichenko, O.A. Kalinin, I.V. Podtelezhnikova, O.S. Gerasimenko, Railw. Transp. Ukr. 1, 11 (2004) (in Ukrainian)
V.I. Podolsky, Reinforced concrete overhead supports. Design, operation, diagnostics, in Proceedings of VNIIZhT, (Intekst, Moscow, 2007) (in Russian)
V.N. Pokrovskaya, I.A. Musatova, I.Y. Shporin, N.E. Martynyuk, Problems of Creation and Application of Centrifuged Reinforced Concrete Structures in Construction (Minsk, 1985), p. 65. (in Russian)
P.P. Polskoy, D.R. Mailyan, S.V. Georgiev, Eng. Bull. Don 4 (2014) http://www.ivdon.ru/ru/magazine/archive/N4y2014/2734 (in Russian)
V.A. Pomazkin, A.A. Makaev, Concr. Reinf. Concr. 3, 26 (1998) (in Russian)
F.C. Ponzo, A. Di Cesare, A. Telesca, A. Pavese, M. Furinghetti, Appl. Sci. (Switzerland) 11, 1938 (2021)
A.N. Popov, Production and Use of Reinforced Concrete and Concrete Pipes for Pressure and Non-pressure Pipelines (Moscow, 1975) (in Russian)
A.N. Popov, P.A. Makarov, Equipment for the Production of Concrete and Reinforced Concrete Pipes (Stroyizdat, Moscow, 1965) (in Russian)
J.S. Popovics, J. Acoust. Soc. Am. 100(5), 3451 (1996)
J.S. Popovics, J.L. Rose, Int. J. Solids Struct. 33, 3925 (1996)
L.T. Prischepa, Mechanism and Kinetics of Crystallization (Nauka and Technika, Minsk, 1964), p. 282. (in Russian)
O.V. Radaykin, Bull. V.G. Shukhov Belgorod State Tech. Univ. 10, 29 (2019) (in Russian)
S. Rajan, Properties of Centrifuged Concrete and Improvement of the Design of Centrifuged Reinforced Concrete Supports for Power Transmission Lines, PhD thesis (Technical Sciences), Rostov-on-Don, p. 267, 1997 (in Russian)
A.P. Ramachandran, M.W. Grutzeck, Micro-structure Demonstration During Kydr. Cement Symposium (Boston, 1990), p. 267
M. Regourd, I.H. Thomassin, P. Bailiff, I.C. Touray, Cem. Concr. Res. 10(2), 223 (1980)
E.Y. Romanenko, High-strength Concretes with Mineral Porous and Fibrous Additives for the Manufacture of Long Centrifuged Structures, PhD thesis (Technical Sciences), Rostov-on-Don, p. 179, 1989 (in Russian)
E.Y. Romanenko, M.A. Trubitsin, Eng. Bull. Don, 1 (2018) http://www.ivdon.ru/ru/magazine/archive/n1y2018/4680 (in Russian)
N.M. Romaschenko, G.N. Gavrilov, Modern Problems of Building Materials Science (Kazan, 1996), p. 43. (in Russian)
N.V. Rotych, V.V. Kononenko, R.V. Rotych, G.V. Ioshenko, Univ. News. Chem. Chem. Technol. 33(1), 99 (1990) (in Russian)
G.K. Ruben, L.R. Mailyan, M.Y. Bekkiev, Automatization of Design Work in Rural Construction (SevKavZPIIEPselstroy, Rostov-on-Don, 1985), p. 25. (in Russian)
M.А. Ryazanov et al., Bull. V.G. Shukhov Belgorod State Tech. Univ. 12, 58 (2016) (in Russian)
V.N. Safronov, Electric Pulse Technology and Electromagnetic Processes in Loaded Solids (Tomsk, 1982), p. 107. (in Russian)
M. Sargin, Stress-Strain Relationships for Concrete and the Analysis of Structural Concrete Sections. SM Study (Solid Mechanical Division, University of Waterloo, Ontario, 1970), p. 4
A.I. Savenkov, Concretes Activated by High-voltage Pulse Treatment, PhD thesis (Technical Sciences), Ulan-Ude, 2000 (in Russian)
I. Scalny, I.E. Ioung, 7th International Congress on the Chemistry of Cement, vol II-1-3 (Paris, 1980), p. 343
E.M. Scherban’, Regulation of Structure Formation and Properties of Thermal Insulation Foam and Fiber-Foam Concrete Activated by Low-energy Variable Electrophysical Effects, Technological and Prescription Factors, PhD thesis (Technical Sciences), Rostov-on-Don, p. 216, 2014 (in Russian)
E.M. Scherban’, Y.I. Gol’tsov, G.A. Tkachenko, S.A. Stel’makh, Eng. Bull. Don, 3 (2012) www.ivdon.ru/magazine/archive/n3y2012/899 (in Russian)
E.M. Scherban’, S.A. Stel’makh, Y.I. Gol’tsov, H.S. Yavruyan, Eng. Bull. Don 4 (2013) http://ivdon.ru/magazine/archive/n4y2013/2193 (in Russian)
E.M. Scherban’, G.A. Tkachenko, Y.I. Gol’tsov, S.A. Stel’makh, Mod. Probl. Sci. Educ. 1 (2012) www.science-education.ru/101-5445 (in Russian)
V.P. Seagull, Concr. Reinf. Concr. 4, 42 (1987) (in Russian)
K.P. Shalalas, A.P. Kuzis, Reinforced Concrete Constructions (Vilnius, 1970), p. 129. (in Russian)
G.V. Shamrina, Cement Concretes Activated in an Electric Field at the Mixing Stage, PhD thesis (Technical Sciences), Makeevka, 2001 (in Russian)
K.P. Shapalas, A.P. Kuzis, Proceedings VII All-Union Conference (Vilnius, 1972), p. 62. (in Russian)
E.M. Shcherban, S.A. Stelmakh, A.K. Khalyushev, M.G. Kholodnyak, Technology of Building Reinforced Concrete Products and Structures for Industrial and Civil Buildings and Structures for Energy and Infrastructure Construction (Don State Technical University Press, Rostov-on-Don, 2019) (in Russian)
E.M. Shcherban, S.A. Stelmakh, M.G. Kholodnyak, M.P. Nazhuev, E.M. Rymova, R.A. Live, Bull. Eurasian Sci. 5 (2018) https://esj.today/PDF/51SAVN518.pdf (in Russian)
V.V. Shchugaev, A.M. Lyudkovsky, A.V. Shapiro, Concr. Reinf. Concr. 1, 20 (1984) (in Russian)
V.L. Shchutsky, M.Y. Gritsenko, D.A. Dedukh, Eng. Bull. Don, 4 (2015) http://www.ivdon.ru/ru/magazine/archive/n2p2y2015/3000 (in Russian)
V.L. Shchutsky, A.S. Nasevich, K.V. Kurgin, S.S. Slabukha, Bull. Eurasian Sci. 1 (2020) https://esj.today/PDF/08SAVN120.pdf (in Russian)
V.L. Shchutsky, A.V. Shilov, T.D. Talipova, Sci. Stud. 8(2) (2016) http://naukovedenie.ru/PDF/29TVN216.pdf (in Russian)
S.N. Shevtsov, A.N. Soloviev, I.A. Parinov, A.V. Cherpakov, V.A. Chebanenko, Piezoelectric Actuators and Generators for Energy Harvesting. Innovation and Discovery in Russian Science and Engineering (Springer, Cham, 2018)
A.E. Sheykin, Y.V. Chekhovsky, M.I. Brusser, Structure and Properties of Cement Concretes (Stroyizdat, Moscow, 1979) (in Russian)
V.N. Shivanov, V.K. Yagodin, Concr. Reinf. Concr. 1, 37 (1968) (in Russian)
I.M. Shubert, Investigation of the Stress-Strain State of Centrifuged Ring Racks of Overpasses During Compression with Torsion, PhD thesis (Technical Sciences), Minsk, p. 227, 1983 (in Russian)
A.I. Shuisky, A.K. Khalyushev, S.A. Stelmakh, E.M. Shcherban, M.G. Kholodnyak, Eng. Bull. Don, 3 (2017) http://ivdon.ru/ru/magazine/archive/N3y2017/4309 (in Russian)
A.I. Shuisky, S.A. Stelmakh, M.G. Kholodnyak, E.M. Shcherban, Construction and Architecture – 2015: International Scientific-Practical Conference (Rostov-on-Don, 2015), p. 386. (in Russian)
A.I. Shuisky, S.A. Stelmakh, M.G. Kholodnyak, E.A. Torlina, Construction and Architecture – 2015: International Scientific-Practical Conference (Rostov-on-Don, 2015), p. 383. (in Russian)
A.I. Shuisky, S.A. Stelmakh, M.G. Kholodnyak, K.S. Yavruyan, E.M. Shcherban, Construction and Architecture – 2015: International Scientific-Practical Conference (Rostov-on-Don, 2015), p. 388. (in Russian)
A.I. Shuisky, S.A. Stelmakh, E.M. Shcherban, A.K. Khalyushev, M.G. Kholodnyak, M.P. Nazhuev, Eng. Bull. Don 4 (2017) http://ivdon.ru/ru/magazine/archive/n4y2017/4373 (in Russian)
A.I. Shuisky, S.A. Stelmakh, E.M. Shcherban, A.K. Khalyushev, M.G. Kholodnyak, M.P. Nazhuev, Eng. Bull. Don 4 (2017) http://ivdon.ru/ru/magazine/archive/n4y2017/4374 (in Russian)
A.I. Shuisky, S.A. Stelmakh, E.M. Shcherban, A.K. Khalyushev, M.G. Kholodnyak, A.V. Shatalov, Eng. Bull. Don 2 (2017) http://ivdon.ru/ru/magazine/archive/N2y2017/4126 (in Russian)
A.I. Shuyskiy, S.A. Stel’makh, E.M. Shcherban, M.G. Kholodnyak, Mater. Sci. Forum 931, 508 (2018)
V.I. Solomatov, M.K. Takhirov, M.D. Takher Shah, Intensive Concrete Technology: Joint Edition of USSR – Bangladesh (Stroyizdat, Moscow, 1989) (in Russian)
A.N. Soloviev, A.V. Cherpakov, P.V. Vasiliev, I.A. Parinov, E.V. Kirillova, Adv. Eng. Res. 20(3), 205 (2020)
A.N. Soloviev, I.A. Parinov, A.V. Cherpakov, Proceedings of the 2nd Annual International Conference on Material, Machines and Methods for Sustainable Development (MMMS2020), Lecture Notes in Mechanical Engineering, Banh Tien Long, Yun-Hae Kim, Kozo Ishizaki, Nguyen Duc Toan, Ivan A. Parinov, Ngoc Pi Vu (Springer, Cham, 2021), p. 233
A.N. Soloviev, I.A. Parinov, A.V. Cherpakov, Y.A. Chaika, E.V. Rozhkov, Mater. Phys. Mech. 37(2), 192 (2018)
A.N. Soloviev, I.A. Parinov, A.V. Cherpakov, Y.V. Esipov, Proceedings of the 2nd Annual International Conference on Material, Machines and Methods for Sustainable Development (MMMS2020), Lecture Notes in Mechanical Engineering, Banh Tien Long, Yun-Hae Kim, Kozo Ishizaki, Nguyen Duc Toan, Ivan A. Parinov, Ngoc Pi Vu (Springer, Cham, 2021), p. 255
V.I. Soroker, M.F. Kozyuk, Energy Construction, vol 9 (1968), p. 57. (in Russian)
S.A. Stel’makh, Influence of the Parameters of Low-energy Variable Electric Fields on the Properties of Activated Thermal Insulation Foam and Fiber-Foam Concrete, PhD thesis (Technical Sciences), Rostov-on-Don, p. 185, 2014 (in Russian)
S.A. Stelmakh, M.G. Kholodnyak, E.M. Shcherban, A.S. Nasevich, A.V. Yanovskaya, Russian Application for Utility Model No. 2020103753/09, 01.29.2020 (in Russian)
S.A. Stelmakh, E.M. Shcherban, A.K. Khalyushev, M.G. Kholodnyak, M.P. Nazhuev, Y.V. Galkin, Eng. Bull. Don 2 (2017) http://ivdon.ru/ru/magazine/archive/N2y2017/4125 (in Russian)
S.A. Stel’makh, E.M. Shcherban, M.G. Kholodnyak, IOP Conf. Ser. Mater. Sci. Eng. 687, 022008 (2019)
S.A. Stelmakh, E.M. Shcherban, M.G. Kholodnyak, M.P. Nazhuev, in Current State and Prospects for the Development of Construction, Heat and Gas Supply and Power Supply: Proceedings of VI All-Russian Conference, ed. by F. K. Abdrazakova, (Amirit, Saratov, 2017), p. 266. (in Russian)
S.A. Stelmakh, E.M. Shcherban, M.G. Kholodnyak, M.P. Nazhuev, A.A. Chernilnik, Russian Application for Utility Model No. 192492, 09.18.2019 (in Russian)
S.A. Stelmakh, E.M. Shcherban, M.G. Kholodnyak, M.P. Nazhuev, A.G. Taroyan, S.V. Cheburakov, Eng. Bull. Don 4 (2018) http://ivdon.ru/ru/magazine/archive/n4y2018/5212 (in Russian)
S.A. Stelmakh, E.M. Shcherban, M.G. Kholodnyak, M.P. Nazhuev, A.G. Taroyan, A.V. Yanovskaya, Eng. Bull. Don 4 (2018) http://ivdon.ru/ru/magazine/archive/n4y2018/5213 (in Russian)
S.A. Stelmakh, E.M. Shcherban, M.P. Nazhuev, M.G. Kholodnyak, Problems and Prospects for the Development of Construction, Heat and Gas Supply and Energy Supply: Proceedings of VIII All-Russian Conference (Science, Saratov, 2018), p. 347. (in Russian)
S.A. Stel’makh, E.M. Shcherban, A.Y. Prokopov, A.I. Shuiskii, S.M. Madatyan, I.A. Parinov, A.V. Cherpakov, Appl. Sci. (Switzerland) 10(22), 8055 (2020)
S.A. Stel’makh, E.M. Scherban’, I.A. Serebryanaya, Y.I. Gol’tsov, H.S. Yavruyan, Eng. Bull. Don 4 (2013) http://ivdon.ru/magazine/archive/n4y2013/2198 (in Russian)
S.A. Stel’makh, E.M. Shcherban, A.L. Zholobov, IOP Conf. Ser. Mater. Sci. Eng. 463, 022034 (2018)
B.V. Stefanov, N.G. Rusanova, A.A. Volyansky, Technology of Concrete and Reinforced Concrete Products (Vishcha School, Kiev, 1982) (in Russian)
Y.Y. Steyerman, Centrifuged Concrete (Tekhnika da Shroma, Tiflis, 1933) (in Russian)
Y.M. Strakhov, T.I. Mayboroda, B.G. Ryasny, Concr. Reinf. Concr. 3, 9 (1993) (in Russian)
L.A. Suleimanova, Bull. V.G. Shukhov Belgorod State Tech. Univ. 1, 9 (2017) (in Russian)
M. Suleman Tahir, M. Saleem, M. Siebenhofer, J. Electrostat. 70, 144 (2012)
M.M. Sychev, J. Appl. Chem. 63, 1303 (1985) (in Russian)
M.M. Sychev, P.G. Komokhov, et al., Physico-chemical Mechanics of Dispersed Systems and Materials (Naukova Dumka, Kiev, 1980), p. 303. (in Russian)
M.M. Sychev, V.A. Matvienko, V.N. Gubar’, Proc GosNII Cem. Ind. 97, 145 (1988) (in Russian)
H.F.W. Taylor, 8th International Congress on the Chemistry of Cement (Rio-de-Janeiro, 1986), p. 72
H.F.B. Taylor, 11th International Congress on Chemistry of Cement. Moscow 2(3), 17 (1989) (in Russian)
Y.A. Tevelev, Reinforced Concrete Pipes (ASV, Moscow, 2004) (in Russian)
T. Tomasz, Constr. Build. Mater. 61, 97 (2014)
V.A. Ulazovsky, V.I. Kuznetsov, Questions of Theory and Practice of Magnetic Treatment of Water Systems (Novocherkassk, 1975), p. 209. (in Russian)
V.I. Ural et al., Bull. V.G. Shukhov Belgorod State Tech. Univ. 4, 129 (2016) (in Russian)
Y.I. Vasilievsky, Investigation of the Strength and Crack Resistance of Circular Reinforced Concrete Sections (Pile Supports of Marine Hydro-Technical Structures, PhD thesis (Technical Sciences), Odessa, 1964 (in Russian)
V.I. Vereschagin, V.N. Safronov, et al., Univ. News. Constr. Archit. 8, 56 (1988) (in Russian)
V.I. Vereschagin, V.N. Safronov, O.V. Silkina, VIII All-Union Scientific and Technical Meeting on Cement Chemistry and Technology (Мoscow, 1991), p. 245. (in Russian)
V.I. Vereschagin, V.N. Safronov, O.V. Silkina, Investigation of Rheological Characteristics of Cement Pastes and Mortar Mixtures During Cement Activation by High-Voltage Corona Discharge (Tomsk, 1998) (in Russian)
V.I. Vereschagin, O.V. Silkina, Cement 1, 4 (1992) (in Russian)
L.A. Volkov, Design, Research and Determination of the Parameters of Equipment for the Manufacture of Reinforced Concrete Pipes by Centrifugation Method, PhD thesis (Technical Sciences), Moscow, p. 173, 1999 (in Russian)
V.A. Voznesensky, Statistical Methods of Experiment Planning in Technical and Economic Research (Finances & Statistics, Moscow, 1981) (in Russian)
P.P. Wadluga, A.P. Kuzis, Research on Reinforced Concrete Structures, vol 1 (Vilnius, 1966), p. 3. (in Russian)
H. Wagh, Hunningty Concr. 5, 40 (1994)
Z. Wang, X.T.C. Man, R.D. Finch, B.H. Jansen, J. Test. Eval. 26, 405 (1998)
L. Wen-Yao, C. Chia-Hung, Mag. Concr. Res. 71(4), 184 (2019)
W. Xiaohui, L. Xila, Cem. Concr. Res. 33(10), 1669 (2003)
G.J. Xiong, X.Y. Wu, F.F. Li, Z. Yan, Constr. Build. Mater. 25(5), 2263 (2011)
K.S. Yavruyan, M.G. Kholodnyak, A.I. Shuisky, S.A. Stelmakh, E.M. Shcherban, Eng. Bull. Don 4 (2015) http://ivdon.ru/ru/magazine/archive/n4y2015/3431 (in Russian)
A.F. Yudina, Technology and Economics of Construction (Novosibirsk, 1977), p. 80. (in Russian)
A.F. Yudina, Modern Technology of Construction of Buildings and Structures (Leningrad, 1985), p. 35. (in Russian)
A.F. Yudina, Technology and Economics of Construction. Problems and Ways to Solve Them (Siberian State Academy of the Way of Communication, Novosibirsk, 1997), p. 80. (in Russian)
A.F. Yudina, Resource-Saving Technology of Concrete Works Based on the Use of Electrotreated Mixing Water, DrSc thesis (Technical Sciences), Saint-Petersburg, 2000 (in Russian)
N.M. Zaychenko, Concretes Electroactivated at the Vibration Compaction Stage, PhD thesis (Technical Sciences), Makeevka, 1995 (in Russian)
N.M. Zaichenko, A.K. Khalyushev, S.A. Stelmakh, E.M. Shcherban, M.G. Kholodnyak, A.A. Chernilnik, Russian Patent for Invention No. 2716285, 03.11.2020 (in Russian)
D.Y. Zolototrubov, Regularities of Formation of Densely Packed Structure of Dispersed-Granular Building Materials Under Electrophysical Influence, PhD thesis (Technical Sciences), Voronezh, 2006 (in Russian)
Technology of Concrete and Reinforced Concrete Products. Textbook for Engineering-Building Universities, ed. by V. N. Sizov, (Higher School, Moscow, 1972) (in Russian)
Manual for Electrotherm Treatment of Concrete (Stroyizdat, Moscow, 1974) (in Russian)
Physico-chemical Mechanics of Dispersed Structures in Magnetic Fields, ed. by N. N. Kruglitsky, (Naukova Dumka, Kiev, 1976) (in Russian)
Handbook of Precast Concrete Technology, ed. by B. V. Stefanov, (Vishcha School, Kiev, 1978) (in Russian)
Guidelines for the Design, Manufacture and Use of Reinforced Concrete Centrifuged Structures of Annular Section, vol 47 (NIIZhB, Moscow, 1979), p. 64. (in Russian)
European Committee for Concrete. Code – Sample EKB – FIP for Standards in Reinforced Concrete Structures (Research Institute of Reinforced Concrete, Moscow, 1984), p. 284. (in Russian)
Production of Concrete and Reinforced Concrete Structures: Reference Book, ed. by B. V. Gusev, A. I. Zvezdova, K. M. Korolev, (New Age, Moscow, 1998) (in Russian)
Pipes Made of Concrete, Reinforced Concrete and Stressed Concrete. CPI – International Concrete Production, vol 45 (ad-Media, Tver, 2005) (in Russian)
Concrete Materials. Technologies Equipment (Stroyinform, Rostov-on-Don, 2006) (in Russian)
Author information
Authors and Affiliations
Rights and permissions
Copyright information
© 2023 The Author(s), under exclusive license to Springer Nature Switzerland AG
About this chapter
Cite this chapter
Mailyan, L.R. et al. (2023). Electrophysical Effect on Concrete Mixtures and Their Components. In: Management of Structure Formation and Properties of Cement Concretes. Innovation and Discovery in Russian Science and Engineering. Springer, Cham. https://doi.org/10.1007/978-3-031-08919-0_8
Download citation
DOI: https://doi.org/10.1007/978-3-031-08919-0_8
Published:
Publisher Name: Springer, Cham
Print ISBN: 978-3-031-08918-3
Online ISBN: 978-3-031-08919-0
eBook Packages: EngineeringEngineering (R0)