Thesis Abstract

Abstract
The marine environment poses significant challenges to the longevity and performance of metallic structures due to the corrosive nature of seawater. This research project focuses on investigating the corrosion resistance of novel alloy coatings specifically designed for marine applications in Materials and Metallurgical Engineering. The study aims to address the limitations of traditional coatings by exploring innovative alloy compositions and deposition techniques to enhance the protective properties against corrosion in marine environments. The introduction provides a comprehensive overview of the importance of corrosion resistance in marine applications, highlighting the economic and safety implications of material degradation in marine structures. The background of the study delves into the existing knowledge and research gaps in the field of alloy coatings for marine environments, emphasizing the need for novel approaches to combat corrosion effectively. The problem statement identifies the persistent challenges faced by traditional coatings in marine applications, including insufficient durability, poor adhesion, and inadequate resistance to harsh environmental conditions. The objectives of the study are outlined to investigate the effectiveness of novel alloy coatings in enhancing corrosion resistance, evaluating their performance under simulated marine conditions, and comparing them with conventional coatings. Limitations of the study are acknowledged, including constraints in terms of time, resources, and the complexity of replicating real-world marine conditions in laboratory settings. The scope of the study defines the parameters and boundaries within which the research will be conducted, emphasizing the focus on alloy coatings and their corrosion resistance properties in marine applications. The significance of the study lies in its potential to contribute to the development of advanced materials with superior corrosion resistance for marine structures, leading to improved durability, reduced maintenance costs, and enhanced safety in maritime operations. The structure of the thesis provides a roadmap for the organization of chapters, guiding the reader through the research methodology, findings, discussions, conclusions, and recommendations. The literature review explores ten key areas related to alloy coatings, corrosion mechanisms, marine environments, surface engineering techniques, and case studies of existing coatings in marine applications. By synthesizing existing knowledge and identifying gaps in the literature, the review sets the foundation for the research methodology, guiding the selection of materials, experimental procedures, and data analysis techniques. The research methodology chapter outlines the experimental approach, including the selection of alloy compositions, coating deposition methods, corrosion testing procedures, and analytical techniques for evaluating the performance of the coatings. Eight detailed contents cover aspects such as sample preparation, testing protocols, data interpretation, and statistical analysis to ensure the robustness and reliability of the results. Chapter four presents a comprehensive discussion of the findings, including the corrosion resistance performance of the novel alloy coatings compared to conventional coatings, the influence of alloy composition on protective properties, the mechanisms of corrosion inhibition, and the implications for practical applications in marine engineering. The results are analyzed in depth, highlighting the strengths, limitations, and potential areas for further research and development. Finally, chapter five concludes the thesis by summarizing the key findings, reiterating the significance of the study, and providing recommendations for future research directions and practical applications of novel alloy coatings for marine environments. The conclusion emphasizes the importance of continuous innovation in materials science and engineering to address the challenges of corrosion in marine structures, paving the way for sustainable and resilient marine infrastructure. In conclusion, this research project on the investigation of the corrosion resistance of novel alloy coatings for marine applications in Materials and Metallurgical Engineering aims to contribute to the development of advanced materials with enhanced durability and performance in challenging marine environments. By exploring innovative alloy compositions and surface engineering techniques, this study seeks to advance the field of corrosion protection and promote the sustainable use of materials in maritime engineering.

Thesis Overview