Thesis Abstract

Abstract
Additive Manufacturing (AM) has revolutionized the production processes in various industries, offering unique capabilities for the fabrication of complex parts with improved performance characteristics. This thesis focuses on the performance evaluation of AM techniques for the production of titanium alloys components, a critical area in the field of Materials and Metallurgical Engineering. The utilization of titanium alloys in various applications, particularly in aerospace, automotive, and medical industries, necessitates the exploration of advanced manufacturing methods to enhance component production. The research begins with a comprehensive review of the background of the study, highlighting the significance of titanium alloys and the growing importance of AM techniques in the manufacturing sector. The problem statement identifies the existing challenges and limitations in the production of titanium components using traditional methods, emphasizing the need for innovative approaches to improve efficiency and performance. The objectives of the study are outlined to investigate the capabilities of different AM techniques in fabricating titanium alloys components and evaluate their mechanical properties and performance characteristics. The study defines the scope of the research, outlining the specific materials, equipment, and methodologies that will be employed to achieve the research objectives. The significance of the study lies in its potential to enhance the understanding of AM processes for titanium alloys components and contribute to the development of optimized manufacturing strategies. The structure of the thesis is presented to guide the reader through the organization of chapters and sections, providing a roadmap for the research findings and discussions. A comprehensive literature review is conducted to analyze existing studies and advancements in AM techniques for titanium alloys, focusing on aspects such as material properties, process parameters, and post-processing methods. The research methodology section details the experimental design, sample preparation, testing procedures, and data analysis techniques employed to evaluate the performance of AM-produced titanium components. The findings of the study are presented in detail, highlighting the mechanical properties, microstructural characteristics, and performance evaluations of components fabricated using different AM techniques. The discussion section examines the results in the context of the research objectives, comparing and analyzing the strengths and limitations of each manufacturing approach. In conclusion, this thesis offers valuable insights into the performance evaluation of AM techniques for the production of titanium alloys components, showcasing the potential for enhancing material properties and structural integrity through innovative manufacturing processes. The summary encapsulates the key findings, implications, and recommendations for future research and industrial applications in the field of Materials and Metallurgical Engineering. Keywords Additive Manufacturing, Titanium Alloys, Performance Evaluation, Materials Engineering, Metallurgical Engineering, Mechanical Properties, AM Techniques, Component Production.

Thesis Overview