Abstract
To improve recycling quality, it is necessary to develop a demolition technology that can be combined with existing crushing methods that employ large shredding-efficient equipment. The efficient collection of bones in a segmentation dismantling method must be considered according to the procedure. Furthermore, there is a need for the development of partial dismantling technologies that enable efficient remodeling, maintenance, and reinforcement. In this study, we experimentally investigated the temperature-rise characteristics of reinforced concrete through partial rapid heating during high-frequency induced heating. Accordingly, the chemical and physical vulnerability characteristics of the reinforced concrete were verified by studying the thermal conduction on the surface of the rebars and the cracks caused by the thermal expansion pressure of the rebars. Furthermore, we aimed to verify the applicability of the proposed technology by specifying the vulnerability range of the reinforced concrete based on the heating range, as well as the appropriate energy consumption. We investigated the temperature rise and temperature distribution characteristics of the rebar surfaces based on diameter, length, bar placement conditions, heating distance, heating coil location, and output, using reinforced steel of grade SD345. Maximum powers of 5, 6, and 10 kW, and inductive heating were used to achieve satisfactory results.
Highlights
IntroductionPublisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations
Induction heating is a method wherein an object is heated by eddy currents that are generated [1,2,3] when a high-frequency magnetic field is applied to a conductor, such as a metal
Induction heating uses an eddy current generated [28,29,30] when a high-frequency magnetic field is applied to a conductor such as a metal
Summary
Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations. High-frequency magnetic fields are mainly used to induce heat, and heating methods can be classified based on the principle of heat generation and application. Radio-frequency heating methods can be classified into two types, namely induction and dielectric heating. Induction heating is a method wherein an object is heated by eddy currents that are generated [1,2,3] when a high-frequency magnetic field is applied to a conductor, such as a metal. Dielectric heating is a method wherein an object is heated by dielectric loss caused by a high-frequency current applied to the dielectric [4,5,6]
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