Effect of CCBP doping on the multifunctional Al-0.5 Mg-15CCBP superalloy using liquid metallurgy process for advanced application
Author:
Funder
Covenant University
Publisher
Elsevier BV
Subject
Materials Chemistry,Metals and Alloys,Mechanical Engineering,Mechanics of Materials
Reference39 articles.
1. Effect of inclusion of SiC particulates on the mechanical resistance behaviour of stir-cast AA6063/SiC composites;Balasubramanian;Mater. Des. (1980–2015),2015
2. A search for alternative solvent to hexane during neem oil extraction;Ayoola;Int. J. Sci. Technol.,2014
3. Optimizing the defensive characteristics of mild steel via the electrodeposition of Zn-Si3N4 reinforcing particles;Akande;Def. Technol.,2018
4. Mechanical performance of heat treated 319 alloys as a function of alloying and aging parameters;Alkahtani;Mater. Des.,2012
5. Metallurgical parameters controlling the microstructure and hardness of Al–Si–Cu–Mg base alloys;Ibrahim;Mater. Des.,2011
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