We are investigating the usage of ceramic materials in the aerospace sector. Ceramics are being used in a restricted number of aeronautical structural applications. Ceramics brittleness, lack of malleability, and expensive cost has been key deterrents to their widespread usage. We can determine the mechanical and thermal properties of this material by studying its mechanical and thermal properties such as strength, hardness, elasticity, grip and fracture, and thermal conductivity, diffusivity, thermal expansion, coefficient of expansion, and diffusivity. Some ceramic materials offer qualities that are important in aerospace applications, as well as the benefits and drawbacks of employing ceramic in the aerospace sector.
Augmentation plays a crucial role in many aircrafts and jet engines to elevate the thrust. Thrust is oe of the four fundamental forces of an aircraft. Augmentation methods are used in certain cases to increase the thrust to perform better landing and take-off. There is various augmentation methods in which afterburner is mostly used over other augmentation methods because of its advantages. In this paper an overview has been provided for thrust augmentation and its different control methods.
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