Abstract

This article presents an in-depth analysis of the interaction of vibration processing with the mechanical properties of welded joints and gas dynamic coatings. Considering the significant impact of vibrations on metallurgical and technological processes, the key aspects of this interaction and its possible influence on the quality and durability of welded joints and coatings are considered. The article sets itself the task of determining the optimal parameters of vibration processing aimed at achieving the highest strength and elasticity in welding joints. A systematic analysis of the influence of the amplitude, frequency and duration of vibrations on the mechanical properties of materials is carried out. Analyzing the interaction of vibrations with the mechanical properties of welded joints, the article reveals the potential of using vibration processing to improve welding processes and form strong and durable joints. Special attention is paid to the study of the influence of vibrations on the microstructure of materials and their ability to withstand mechanical loads in various operating conditions. Additionally, the paper explores the interaction of vibration treatment with gas-dynamic coatings, as these coatings play an important role in providing surface protection and functionality. The authors study how vibrations can affect the uniformity of coating application, their stability and adhesion to the base. A separate aspect of the article is devoted to considering the possibilities of optimizing gas dynamic coatings using vibration processing to achieve better adhesion and stability. The study covers not only metal coatings, but also polymer and composite materials. The conclusions of the article determine the importance of taking into account the influence of vibrations on welding and coating processes, indicating the prospects for improving production technologies to increase the quality and durability of joints and coatings in industrial applications.

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