Study of the influence of ultrasound on the wear resistance of coatings made of composite polymer materials for the shape of architectural and artistic reinforced concrete products

Namangan Engineering and Construction Institute, Namangan, Uzbekistan

^* Corresponding author: I.axmedov0588@gmail.com

Abstract

This paper investigates the impact of ultrasound on the physicalmechanical properties and wear resistance of polymeric composite materials and coatings used in architectural-artistic concrete products. The study is motivated by the frequent failure of polymer coatings on the working surfaces of technological equipment. The research focuses on the development of effective thermosetting epoxy polymeric materials with high adhesion and wear resistance properties for use in the working surfaces of architectural-artistic concrete products. The study examines the effect of ultrasonic treatment on the wear resistance of epoxy polymeric composites in contact with concrete. The investigation uses two types of base compositions of the binder. The compositions are filled with various industrial dispersed and fibrous fillers, including graphite, carbon fibers, soot, iron powder, cement, talc, kaolin, glass fiber, PTFE, and high-density polyethylene. The study is significant as it provides insights into the development of effective thermosetting epoxy polymeric materials with high adhesion and wear resistance properties for use in the working surfaces of architectural-artistic concrete products. The results of the study can help improve the efficiency and durability of metal equipment used in the production of concrete products.