Thesis Abstract

**Abstract
** Corrosion remains a significant challenge in the industrial sector, particularly in applications involving steel alloys. The degradation of steel components due to corrosion not only leads to financial losses but also poses safety and environmental concerns. This thesis focuses on the enhancement of corrosion resistance in steel alloys through the application of surface modification techniques. The research investigates various methods such as coatings, alloying, and surface treatments to mitigate corrosion and extend the service life of steel components. The study begins with a comprehensive review of the literature on corrosion mechanisms, types of steel alloys, and existing surface modification techniques. The research methodology section outlines the experimental procedures and testing protocols employed to evaluate the effectiveness of different surface modification methods in enhancing corrosion resistance. Through a detailed discussion of the findings, this thesis presents insights into the performance of various surface modification techniques in inhibiting corrosion in steel alloys. Factors such as coating thickness, composition, and application method are analyzed to determine their impact on corrosion protection. The results highlight the potential of surface modification techniques in significantly reducing corrosion rates and improving the durability of steel components in aggressive environments. The conclusion summarizes the key findings of the study and emphasizes the importance of surface modification as a viable strategy for enhancing the corrosion resistance of steel alloys. The significance of this research lies in its contribution to the development of effective corrosion mitigation strategies that can benefit industries reliant on steel materials. By extending the lifespan of steel components and reducing maintenance costs, the application of surface modification techniques offers a sustainable solution to the pervasive issue of corrosion in steel alloys. In conclusion, this thesis provides valuable insights into the enhancement of corrosion resistance in steel alloys through surface modification techniques. The findings contribute to the body of knowledge in materials and metallurgical engineering, offering practical solutions to combat the detrimental effects of corrosion in industrial applications. The research outcomes have the potential to drive innovation in corrosion protection strategies and improve the reliability and performance of steel components in various sectors.

Thesis Overview