Conference Tools for MS&T21: Materials Science & Technology

Login

Register as a New User

Help

Submit An Abstract

Propose A Symposium

Presenter/Author Tools

Organizer/Editor Tools

About this Abstract
Meeting	MS&T21: Materials Science & Technology
Symposium	Powder Metallurgical Components in High Performance Applications
Presentation Title	Synthesis, Sintering and Mechanical Behavior of Ultra-fine Low-oxygen Titanium Powder
Author(s)	Ying Xu, Kumar Jena, Peng Cao
On-Site Speaker (Planned)	Ying Xu
Abstract Scope	Titanium powder play an important role in powder metallurgy and metal injection molding. The design and development of titanium with good ductility and ultrahigh strength for demanding applications have attracted much attentions over the years. Low-oxygen ultra-fine titanium particles were direct synthesized via a facile room temperature chemical reduction method in solution phase. The fabricated spherical titanium powders are uniform with diameter lower than 10 nm, stabilized by various organic ligands. The sintering and mechanical behaviors of the titanium are further investigated

OTHER PAPERS PLANNED FOR THIS SYMPOSIUM

Cemented Carbides with Complex Binder Alloys

Development of Eco-friendly POM Binder System for High Strength Ti-MIM

Development of Resistance Based Sintering for Metal Powders

Dispersing Tailored Nanoparticles through Powder Metallurgy Consolidation

Effect of Manufacturing Parameters on Inoculated PM Tool Steel Properties

Fabrication of Titanium and Titanium Alloy Components by Thermomechanical Powder Consolidation

High-strength Titanium Matrix Composites Reinforced with In Situ Polycarbosilane-derived TiC Particle

Microstructural Uniformity duringSsintering, Thermal-plastic Processing and Recrystallization of Tungsten

Selective Laser Melting of Metallic Glass Powder to Improve Chemical and Mechanical Performance of Magnesium

Synthesis of Low-oxygen Titanium towards Achieving Strength-ductility Synergy

Synthesis, Sintering and Mechanical Behavior of Ultra-fine Low-oxygen Titanium Powder

Thermodynamic Model for Predicting the Embodied Energy of Titanium Alloys Produced by Powder Metallurgy

Questions about ProgramMaster? Contact programming@programmaster.org