Mechanical Alloying (3rd Ed.) Energy Storage, Protective Coatings, and Medical Applications
Auteur : El-Eskandarany M. Sherif
Mechanical Alloying: Energy Storage, Protective Coatings, and Medical Applications, Third Edition is a detailed introduction to mechanical alloying that offers guidelines on the necessary equipment and facilities needed to carry out the process, also giving a fundamental background to the reactions taking place. El-Eskandarany, a leading authority on mechanical alloying, discusses the mechanism of powder consolidations using different powder compaction processes. A new chapter is included on utilization of the mechanically alloyed powders for thermal spraying.
Fully updated to cover recent developments in the field, this second edition also introduces new and emerging applications for mechanical alloying, including the fabrication of carbon nanotubes, surface protective coating and hydrogen storage technology. El-Eskandarany discusses the latest research into these applications and provides engineers and scientists with the information they need to implement these developments.
1. Introduction 2. Characterizations of mechanically alloyed powders 3. The history and necessity of mechanical alloying 4. Controlling the powder-milling process5. Ball milling as a superior nanotechnological fabrication’s tool6. Mechanochimical process for fabrication of 3D nanomaterials7. Fabrication of nanocrystalline refractory materials8. Fabrication of and consolidation of hard nanocomposite materials9. Solid-state hydrogen storage nanomaterials for fuel cell applications10. Mechanically induced-catalyzation for improving the behavior of MgH211. Implementation of MgH2-based nanocomposite for fuel cell applications12. Utilization of ball-milled powders for surface protective coating13. Mechanically induced solid-state amorphization14. Mechanical alloying for preparing nanocrystalline high-entropy alloys15. Biomedical applications of mechanically alloyed powders
- Guides readers through each step of the mechanical alloying process
- Includes tables and graphs that are used to explain the stages of the milling processes
- Presents a comprehensive update on the previous edition, including new chapters that cover emerging applications
Date de parution : 04-2020
Ouvrage de 484 p.
15x22.8 cm
Thèmes de Mechanical Alloying :
Mots-clés :
advanced materials; amorphous; approaches used for preparing advanced materials; ball milling; ball-milling process; catalysts; ceramics matrix composite; characterization techniques; composite/nanocomposite powders; consolidation; consolidation techniques; corrosion; crystallization; cutting tools; enthalpy change of formation; entropy; factors affecting the milling process; fuel cell; gas-solid reaction; glass transition temperature; hard materials; high-energy ball milling; hydrogen reactor; implanted biomaterials; improving the hydrogenation/dehydrogenation kinetics; kinetics; mechanical alloying; mechanical doping; mechanical properties; mechanically induced solid-state reduction; mechanism of milling; metal hydrides; metal matrix composite; metallic glasses; metastable powder; Mg metal; mixing; multicomponent alloys; nanocrystalline bulk materials; nanohardness; nanoindentation; nanomaterials; nanoparticles; nanosheets; nanotubes; photon probe methods; plastic deformation; powder consolidation; powder metallurgy; reactive ball milling; scanning probe methods; solid-state amorphization reaction; solid-state hydrogen storage materials; solid-state reaction; superior hardness; surface protective coating; thermal spray coating materials; thermal stability; thermodynamic methods; traditional materials; types of ball mills; types of milling equipment and milling media