Özet:

In this study, high-resistant light shell shells were produced by replacing the waste extended polystyrene (EPS) aggregate with wheat sand. In the cappucks used for covering and supply purposes, the use of waste EPS is aimed at reducing the unit volume weight of the cappucks, increasing their heat performance. For this purpose, a group of traditional shaped shaped shaped shaped shaped shaped shaped shaped shaped shaped shaped shaped shaped shaped shaped shaped shaped shaped shaped shaped shaped shaped shaped shaped shaped shaped shaped shaped shaped shaped shaped shaped shaped shaped shaped shaped shaped shaped shaped shaped shaped shaped shaped. Waste EPS aggregates have been replaced by the volume of 0,20,40,60,80% and100% with the wheel aggregate. The spread diameter, unit weight, water absorption rate, visible vacuum rate, key water absorption, pressure and inclination resistance, resistance to stretching and heat conductivity performance have been measured. The unit volume weights of the waste EPS contained are determined between 750 kg/m3 -1950 kg/m3 and a lightweight sheet has been obtained. In addition, the thermal conductivity ratio of the traditional chopper is reduced from 0.6617 W.m/K to 0.2553 W.m/K with a total waste EPS residence, which has achieved a 61% lower thermal conductivity. Experimental findings showed that, depending on the place exchange rate of the waste EPS aggregate, the range of 6.1 MPa-43.4 MPa can be achieved with light shells in both medium-resistant and portable light concrete class. The drop in unit weight in the charges contributes to the reduction of the structure weight and the improvement of the heat-isolation properties. Thus, the earthquake load, the isolation characteristics and the waste EPS recycling are sustainable, and the lightweight shell has been obtained.

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