Titanium alloys : formation, characteristics and industrial applications

Titanium and its alloys are one of the important engineering materials that are becoming increasingly popular for aerospace and biomedical applications due to their wide range of desirable properties. However, these unique properties of titanium and its alloys are strongly affected by different parameters including: chemical composition, microstructure, manufacturing details and heat treatment history. On the other hand, there has been considerable interest in recent years in the development of advanced titanium alloys in nanostructured, ultrafine-grained, and/or amorphous structure to achieve high performance compared with their conventional coarse-grained counterparts. These new titanium alloys show incomparable plasticity with respect to the conventional titanium alloys. This book highlights the recent advances in the understanding of the formation, characteristics and application of titanium alloys.

• Preface
• The Significance of Corrosion in Titanium-Based Alloys for Industrial Applications
• Thermomechanical Processing (TMP) & Strain-Induced Phase Transformation in Titanium Alloys
• Selective Laser Melting of Ti-24Nb-4Zr-8Sn Alloy for Biomedical Applications
• Selective Laser Melting Commercially Pure Titanium: Densification, Microstructure & Wear Performance
• Fabrication & Characterization of Porous Beta Titanium Alloy
• Influence of Oxygen Addition on Microstructure & Mechanical Properties of Ti-Nb-Ta-Zr Beta Titanium Alloy
• Fabrication of Titanium-Based Biomaterial by Spark Plasma Sintering & Crystallization of the Amorphous Phase
• Fabrication & Corrosion of Ti-Based Metallic Glasses
• Titanium-Based Bulk Metallic Glass Matrix Composite
• Fabrication of Titanium-Based Composites by Spark Plasma Sintering & Crystallization of the Amorphous Phase
• High-Strength Ultrafine-Grained Titanium-Based Alloys with Large Plasticity
• Index.