Abstract:

It is believed that the powder-added polymer equipment, in addition to its high corrosion resistance and high drawing resistance, is a light material that can be replaced by traditional steel equipment. One of the most critical problems in the availability of fiber-added polymers as equipped within concrete is adhesive resistance. The adhesive resistance between the cluster and concrete depends on many factors, such as the cluster of concrete, the type of the cluster, the diameter, the depilation depth, the surface characteristics. In this study, the impact on the adhesive resistance between the glass fiber-added polymer (CETP) equipment diameter (18, 16, 14 and 12 mm), the concrete class (C20 and C40) and the high temperature (150 and 250 oC), the CETP equipment and concrete. In the early stages of the study, a separation test was applied to samples produced using concrete mixture prepared in C20 and C40 classes and CETP equipment in four different dimensions, and the impact of the change in the equipment diameter and in the concrete class on adherent resistance was studied. In the second phase of the study, samples prepared using 12 and 16 mm diameter CETP equipment for concrete mixture in C20 and C40 classes were exposed to temperatures of 150 and 250 oC for 3 hours. Then, by applying the separation test to samples cooled up to room temperature, the effect of high temperature on adherent resistance was studied. As a result of this study, the CETP equipment diameter increases, the adherent resistance increases, the increase in pressure resistance of concrete also affects adherent resistance in a positive direction. Also, it has been determined that the increase in temperature negatively affects the adhesion between the CETP equipment and concrete.

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