Abstract
The present studies are devoted to studying the behavior of the nanopart during their interaction with the surface. Small additives in composite materials significantly increase their strength and other operational properties. When carrying out repairs in the oil and gas industry, it is promising to fill the detected cracks and crack-like defects with composite material, the distinguishing feature of which is high fluidity and penetration at the time of filling. After hardening, such composites must meet all the requirements for strength and durability. Such properties can be obtained using magnetic iron oxide nanoparticles. In the molding process, a balance must be maintained between the adhesive strength of the composite compound and its cohesive strength. For this, it is crucial to know the underlying mechanisms of the formation of thin films containing nanoparticles on the surface of various structural materials.
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