Abstract
With the development of concrete technology, the tendency to combine different materials with each other to achieve a greater efficiency and durability of structures can be observed. In the modern construction industry, various materials and techniques are increasingly being combined in order to achieve e.g., an increased resistance to dynamic impacts of a structure, or an increased scope of work of a selected constructional element, which translates into a significant increase in the energy of destruction. Thus, hybrid elements, known as composite ones, are created, which consist of concrete and reinforcements. This study examined the influence of the preparation of the concrete surface on the behavior of high-performance, self-compacting, fiber-reinforced concrete (HPSCFRC), reinforced with carbon fibers (CF) using a cement matrix. In the general lamination processes, this is preformed using epoxy resin. However, epoxy resin is sensitive to relatively low temperatures, and therefore the authors attempted to use a cement matrix in the lamination process. When connecting hardened concrete with a fresh concrete matrix or mixture, the type of the concrete surface is significant. In this research, three types of concrete surfaces e.g., unprepared, sanded and grinded were considered. All of the surfaces were examined using a 3D laser scanner, to determine the Abbott-Firestone profile material share curve. In this research, cylindrical concrete specimens were reinforced with one, two and three layers of laminates. They were then subjected to a uniaxial compressive test. The results of tests showed that the use of cement matrix in the lamination process, due to its low efficiency, should not be applied when reinforcing concrete elements with a high compressive strength. Moreover, the grinded surface of concrete showed the best cooperation with CF reinforcement.
Highlights
Composites are materials that are consciously constructed of two or more materials and which have properties other than individual constituent materials
Fiber reinforced polymer (FRP) composite can be defined as a polymer which is reinforced with fiber
For the concrete reinforced with one layer of Carbon fibre reinforced polymer (CFRP), a slight increase in strength was observed, which depended on the type of concrete surface
Summary
Composites (combined materials) are materials that are consciously constructed of two or more materials and which have properties other than individual constituent materials. The use of FRP in civil engineering is becoming more and more common in relation to strengthening existing and newly designed structures. This is due to the many advantages of materials from this group of polymers. Requirements for structures in terms of bearing capacity and serviceability are increasing, and their fulfillment using ordinary concrete becomes uneconomical and even impossible in some cases. This forced the search for new ways to improve the properties of concrete
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