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Meeting MS&T21: Materials Science & Technology
Symposium Powder Metallurgical Components in High Performance Applications
Sponsorship TMS Powder Materials Committee
Organizer(s) Peng Cao, The University of Auckland
Hanadi A. G. Salem, American University in Cairo
Paul D. Prichard, Kennametal Inc.
Matthew G. Osborne, Global Advanced Metals
James D. Paramore, Texas A&M University
Scope Powdered metal materials and processes enable the manufacturing of components for many high-performance applications. The synthesis of new materials and the development of processing technologies permit new and multi-functionality, higher mechanical properties, higher operating temperature, higher corrosion and erosion resistance and more productivity. The symposium will examine “state of the art” and emerging P/M materials and processes, which are important for future growth and sustainability. Particular emphases will be on high-temperature materials and high entropy alloys (HEA).

The topics discussed will include, but not limited to:


• P/M advantages for high-performance applications
• High-temperature materials
• Powder metallurgical high entropy alloys
• Sintering and HIP technologies advances in shaping and consolidation
• Advanced modelling of P/M processes
• Emerging Materials for P/M processing
• Structure/Property relationships of advanced P/M components
• P/M processing for environmental sustainability

Abstracts Due 04/15/2021
PRESENTATIONS APPROVED FOR THIS SYMPOSIUM INCLUDE

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


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