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Full Description
The text addresses the importance of additive manufacturing in aerospace applications, high-temperature oxidation-resistant, fatigue-resistant, corrosion-resistant, and wear-resistant materials.
Discusses advanced manufacturing techniques like 3D printing and laser powder bed fusion for aerospace materials.
Covers the characterization of the cutting edge of high entropy alloys, performance, and properties of high entropy alloys at elevated temperatures.
Focuses on the advancement of protecting coatings and claddings in the aerospace industry including laser cladding, microwave oven claddings, plasma spray, and arc spray.
Presents the materials used in the interior of aircraft, and their performance in case of emergencies like fire safety, and sudden shocks.
Illustrates phase field modeling, material design and modeling, and classical approaches used for the development of new aerospace materials.
The text is primarily written for senior undergraduates, graduate students, and academic researchers in fields including mechanical engineering, aerospace engineering, industrial and production engineering, manufacturing engineering, and materials science. Seasonal Blurb:
Contents
1. Introduction to Aerospace Materials and their Applications. 2. Modern Manufacturing Techniques Used in the Fabrication of Aircraft Components. 3. Aircraft Engine Materials and their Properties. 4. High-temperature Oxidation of Metals and Alloys. 5. High Entropy Alloys in Aerospace Applications. 6. Design and Performance of Aerospace Composites and Ceramic Materials. 7. Aerospace Glasses and their Properties. 8. Shape Memory Alloys for Development of Aerospace Applications. 9. Light-weight Aircraft Materials. 10. Thermal Barrier Coatings and Claddings. 11. Materials used in the Aircraft Interiors and their Performance. 12. Maintenance of Aerospace Materials in Aircraft Engine. 13. Modelling of Aerospace Materials. 14. A Case Study on Aerospace Materials and Engineering.
