Abstract
This chapter presents results of wide practical implementation of injection materials and technologies for renewal of concrete and reinforced concrete structures in industrial and municipal building structures of Ukraine damaged by cracks and/or other defects. Case studies of combined injection and waterproofing works in overground, underground, and underwater structures of stationary atomic power plants, as well as river hydroelectric pumped storage power stations, are illustrated. Descriptions of blockage technologies of water leakage through cracks or seepage through defect zones using injection materials in dams, turbine rooms, or adjoining working rooms of hydraulic works are represented. The process specific features and practical results on renewal of inner surfaces in concrete and reinforced concrete sewage collectors and water main pipelines 1400...3000 mm in diameter in the city of Lviv are given. Case studies of injection strengthening and surface protective waterproofing of injured tunnels, bridges, and traffic interchanges for rail and motor transport, as well as foundations, walls, and vaults of houses, churches, and other historical relics in antique city districts, are presented. Renewal with modern cement materials and surface protective waterproofing of reinforced concrete berths and other structures in seaports that have undergone long-term exposure to sea slaps and active humid air corrosion is illustrated.
This is a preview of subscription content, log in via an institution.
Buying options
Tax calculation will be finalised at checkout
Purchases are for personal use only
Learn about institutional subscriptionsReferences
Panasyuk VV, Sylovanyuk VP, Marukha VI (2005) Strength of cracked structure elements healed using injection technologies. Phys Chem Mech Mater 6:60–64
Marukha VI, Serednitskiy YA, Gnip IP, Sylovanyuk VP (2007) Development of injection technologies and design of mobile equipment for diagnostics and serviceability restoration of concrete or reinforced concrete structures operating under stress-corrosive conditions. Sci Innovat 3:55–62
Sylovanyuk VP, Marukha VI, Genega BY, Ivantyshyn MA (2002) Fracture mechanics as scientific basis of densification injection technology in long-term objects reconstruction. In: Mekhanika i fizika ruinuvannya budivel’nykh materialiv i konstruktsii (Fracture mechanics and physics of building materials and structures). Issue 5, Kamenyar, Lviv, pp 373–382
Marukha VI, Genega BY (2001) Sealing technologies for strengthening and repair of reinforced concrete structures. In: Diagnostika, dovgovechnost’ ta rekonstruktsiya mostiv i budivel’nykh konstruktsiy (Diagnostics, durability, and reconstruction of bridges and concrete structure). No. 8. Kamenyar, Lviv, pp 158–161
Marukha A, Genega B, Serednitskiy Ya, Zaplatins’kiy M (2006) Concrete structure protection against stress corrosion using polyurethane injection compositions. Phys Chem Mech Mater 5:834–840
Marukha VI, Genega BY, Serednitskiy YA (2007) Technology of serviceability restoration using polyurethane injection compositions for concrete and reinforced concrete structures with stress-corrosion cracks. In: Scientific, resource, and technological potential realization efficiency in modern conditions. Proc. 7th Int. Ind. Conf., Lviv, Feb. 2007, pp 144–147
Sylovanyuk VP, Marukha VI, Genega BY, Onishchak NV (2007) Scientific basis of injection technologies for renewal damaged long-term structures. Ibid, pp 344–346
Czarnecki L, Emmons PH (2002) Naprava i ochrona konstrukcji betonowych (Repair and protection of concrete structures). Polski Cement, Krakov
Allen R, Edwards S (1993) Repair of concrete structures. Blackie Acad Prof, Glazgow
Marukha VI (2007) Strength of concretes with stress concentrators filled by polyurethane mixtures. In: Mekhanika i fizika ruinuvannya budivel’nykh materialiv i konstruktsii (Fracture mechanics and physics of building materials and structures). Issue 7, Kamenyar, Lviv, pp 524–534
Jankowski P (1993) Sealing of reinforced concrete structures using chemical injection. Eng Construct 3:101–104
Podołski B, Suwalski J, Wydra W (2000) The specifics of repair of old reinforced concrete building structures. Corros Protect 1:67–69
Czarnecki L, Skwara J (1998) Naprawa rys konstrurcji żelbetonowych metodą iniekcji (Injection repairing reinforced concrete structures with cracks). In: Proc. XIII All-Poland Conf. “Structural Designer Job Workshop”, Ustron, Poland, pp 39–55
Scislewski Z (1999) Ochrona konstrukcji zelbetonowych (Protection of reinforced concrete structures). Arkady, Warsaw
Marukha VI, Vasilechko VO, Genega BY et al (2003) Waterproofing cover selection rules for protection of a sewage collector against very aggressive media volleys. In: Proc. int. water forum “Aqua Ukraine 2003”, Ukrainian Water Association, Kyiv, Nov. 4–6, 2003, pp 194–195
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
Copyright information
© 2014 Springer Science+Business Media Dordrecht
About this chapter
Cite this chapter
Panasyuk, V., Marukha, V., Sylovanyuk, V. (2014). Implementation of Injection Technologies in the Renewal and Restoration of Serviceability of Concrete and Reinforced Concrete Structures. In: Injection Technologies for the Repair of Damaged Concrete Structures. Springer, Dordrecht. https://doi.org/10.1007/978-94-007-7908-2_8
Download citation
DOI: https://doi.org/10.1007/978-94-007-7908-2_8
Published:
Publisher Name: Springer, Dordrecht
Print ISBN: 978-94-007-7907-5
Online ISBN: 978-94-007-7908-2
eBook Packages: EngineeringEngineering (R0)