Thesis Abstract

Abstract
Corrosion is a critical issue in the field of materials and metallurgical engineering, leading to significant economic losses and safety concerns across various industries. The project focuses on enhancing the corrosion resistance of steel alloys through the application of surface modification techniques. This study aims to investigate the effectiveness of different surface modification methods in improving the corrosion resistance of steel alloys and to provide valuable insights for the development of advanced corrosion protection strategies. The research begins with a comprehensive review of the literature on corrosion mechanisms, surface modification techniques, and their impact on the properties of steel alloys. Various methods such as physical vapor deposition, chemical vapor deposition, electroplating, and ion implantation will be explored to understand their potential in enhancing the corrosion resistance of steel alloys. The methodology section outlines the experimental procedures and parameters involved in the surface modification processes. The research will involve the preparation of steel alloy samples, application of surface modification techniques, characterization of the modified surfaces using advanced analytical tools such as scanning electron microscopy, X-ray diffraction, and electrochemical testing methods to evaluate the corrosion behavior. The findings from the experimental study will be discussed in detail in the results and discussion chapter. The corrosion resistance performance of the modified steel alloys will be compared to unmodified samples, highlighting the effectiveness of different surface modification techniques in inhibiting corrosion. Factors such as surface morphology, chemical composition, and microstructural changes will be analyzed to understand their influence on the corrosion resistance properties of the steel alloys. In conclusion, the study demonstrates the potential of surface modification techniques in enhancing the corrosion resistance of steel alloys. The significance of the research lies in providing valuable insights for the development of advanced materials with improved corrosion protection properties, which can have wide-ranging applications in industries such as automotive, aerospace, marine, and infrastructure. This thesis contributes to the field of materials and metallurgical engineering by advancing the understanding of surface modification techniques for corrosion protection and provides a foundation for further research in the development of innovative materials with enhanced performance characteristics. Keywords Corrosion resistance, Steel alloys, Surface modification techniques, Materials engineering, Metallurgical engineering.

Thesis Overview