The current research intends to give a full explanation of metal matrix composite fabrication employing various combinations of reinforcements and the principles of friction stir method, as well as the influence of input processing parameters on mechanical characteristics. The researchers wanted to see if there was a relationship between the input process parameters and the output responses. Friction stir welding and processing uses a fraction of the energy of other processes. Due to their unique mechanical and metallurgical properties, stability, durability, and corrosion resistance, metal matrix composites have replaced conventional materials in many technological applications. Process factors such as rotation speed, tilt angle, feed, and temperature have a major impact on the mechanical qualities of fabricated composite surfaces when using the friction stir technique rate of deposition The solid-state nature of the manufacturing approach has resulted in an increase in many features of surface composites. The pin profile has an impact on mechanical properties as well. Triangular, cylindrical, hexagonal, and pentagonal pin profiles are the most frequent. On the subject of surface composites, the new research might lead to defect-free welding with improved mechanical properties.
Author(S) Details
R. Ajith Raj
Department of
Aeronautical Engineering, Malla Reddy College of Engineering and Technology,
Hyderabad-500100, India.
P. H. V. Sesha Talpa Sai
Department of Mechanical Engineering and Director R & D, Malla Reddy
College of Engineering and Technology, Hyderabad-500100, India.
Department of Aeronautical Engineering, Malla Reddy College of Engineering and Technology, Hyderabad-500100, India.
View Book:- https://stm.bookpi.org/TIER-V2/article/view/6845
No comments:
Post a Comment