Özet:

Anizotropy is the directional change of material characteristics. The determination of the anizotropic degree in concrete is important in terms of the characteristics and quality of concrete. For this purpose, it is possible to take advantage of the non-destructional geophysical methods. The study has studied the variation of the direction dependency of the isolation measurements on the equipped concrete depending on time, curve conditions, concrete resistance and the diameter of the equipment. For this purpose, the work was carried out on 3 concrete designs with low, medium and high resistance characteristics. Each design is designed to have a unit of 10, 14 or 20 mm diameter and about 250 mm length in the middle of 18 cubic samples of 150mm sizes. In total, half of 162 samples were kept in water for 90 days, while the other half was kept in air for 90 days. In certain periods of time, the strengths are different on each surface of the equipped concrete, with the separating device with two straight measurements, the total of 8 separating values on the 4 surface are determined. Thus, anizotropy can be shown depending on whether the concrete pores are filled with water or air. Anizotropy can be determined in air-saturated concrete by the discharge method, while anizotropy in water-saturated concrete of the same concrete has not been shown. As a result, it has been understood that concrete pores affect the determination of anizotropin by the method of isolation of the type of saturation.

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