Bu ara?tyrmada, uçucu kül katkyly betonlaryn mühendislik özelliklerinin tahribatsyz test yöntemleri ile belirlenmesi amaçlanmaktadyr. Çaly?mada, Orhaneli termik santralinden elde edilmi? F synyf uçucu kül, beton içerisine çimento a?yrly?ynyn % 0-5-10-20 ve 30 oranlarynda ikame edilerek deney numuneleri hazyrlanmy?tyr. Hazyrlanan 5 farkly beton kary?ymyndan 12 adet 15x15x15 cm ebadynda küp numune üretilmi?tir. 28 günlük dayanym de?erine ula?my? olan beton numuneler üzerinde schmidth çekici ile yüzey sertli?i, pull-off direk çekme deneyi, pundit ultrases geçi? hyzy deneyi ve beton basynç dayanymy deneyleri gerçekle?tirilmi?tir. Elde edilen tahribatsyz test metodu sonuçlary kullanylarak çe?itli ampirik formüller ile beton basynç dayanymy de?erleri hesaplanmy?tyr. Hesaplanan beton basynç dayanymy de?erleri ile gerçek beton basynç dayanymy de?erleri istatistiksel yöntemler kullanylarak kar?yla?tyrylmy?tyr. Sonuç olarak, literatürde önerilen modeller ile deneysel basynç dayanymy de?erleri %18-%33 hata oranlary ile tespit edilebilmi?tir. Geli?tirilen ampirik formüllerle ise deneysel basynç dayanymy de?erleri dü?ük hata oranlary ile tahmin edilmi?tir. Önerilen ampirik formüllerin uçucu kül ikameli betonlaryn basynç dayanymy tahmininde kullanylabilece?ini göstermi?tir.

In this study, determination of the engineering properties of concrete having fly ash by non-destructive test methods is aimed. In the experimental study, test specimens were prepared using F type fly ash obtained from Orhaneli thermal power plant in the rates of 0-5-10-20 and 30%. Twelve numbers of cubic samples having 15x15x15 cm dimensions were obtained from the five different concrete mixes. Surface hardness, pull-off tensile strength test, ultrasonic pulse velocity test and compressive strength tests were performed on the concrete samples after the 28th days cure conditions. According to the non-destructive test results, concrete compressive strength values were calculated by using various empirical equations. Calculated compressive strength values and the experimental compressive strength values were compared with each other using statistical methods. As a result, experimental concrete compressive strength values have been determined among 18-33% error rates by using proposed equations in the literature. Experimental concrete compressive strength values have been determined with a low error rates with proposed empirical equations. It was showed that developed empirical equations in this study could be used to estimate compressive strength of the fly ash substituted concretes.