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About this Abstract
Meeting	Materials Science & Technology 2012
Symposium	Raymond W. Buckman, Jr. Memorial Symposium for Refractory Metals and Alloys
Presentation Title	Comparison of Processing on the Mechanical and Microstructure of Powder Metallurgy Molybdenum 41% and 47.5% Rhenium
Author(s)	Todd Leonhardt
On-Site Speaker (Planned)	Todd Leonhardt
Abstract Scope	Rhenium and rhenium containing alloys are unique metals with high melting points, high moduli of elasticity and high temperature mechanical properties. The most common rhenium containing alloys are molybdenum-41wt% rhenium (Mo41%Re) and molybdenum-47.5wt% rhenium (Mo47.5%Re). The focus of this study is to examine the mechanical properties and microstructures of hot isostatic pressed, hot rotary swaged, hot rolled and hot rolled and annealed Mo41%Re and Mo47.5%Re alloys. The addition of rhenium to molybdenum increases the ductility as the rhenium concentration increases. The primary deformation mechanism of Mo47.5 Re alloys is twinning. Twinning occurs during cold and warm working, enhancing the mechanical properties without sacrificing ductility yet maintaining good strength at elevated temperatures. This study will discuss the results of the differences in rhenium concentration and processing methods on the texture, microstructure, and the mechanical properties at room temperature and at elevated temperature.
Proceedings Inclusion?	Definite: A CD-only volume

OTHER PAPERS PLANNED FOR THIS SYMPOSIUM

A Review of Rhenium Processing Technologies

Application of Refractory Materials as Friction Stir Welding Tools

Case Studies in Structure-Property Relationships of High Temperature Materials

Characterization of Microstructural Evolution in Refractory Metals from Deformation and Thermal Processing

Characterizing Dislocation Substructure in Large Grain Niobium for Accelerator Cavities

Comparison of Processing on the Mechanical and Microstructure of Powder Metallurgy Molybdenum 41% and 47.5% Rhenium

Crystal Plasticity Finite Element Modeling of Deformation of Single Crystal Niobium

Current and Developmental Production Methods of W and WC Based Powders

Discussion of High-Temperature Vacuum Creep for Selected Refractory Alloys

Exploring Possibilities of MoRe in Medical Devices

High Strain Rate Effects on Fracture of Niobium Alloy C-103

Manufacturing Processes and Properties of Tungsten-25%Rhenium with and without Hafnium Carbide for Friction Stir Welding Tooling

Mechanical and Physical Metallurgy of High Purity Niobium used for Superconducting Radio Frequency Cavities for Particle Accelerators

Microalloying of Mo-Si Alloys as a Key for Developing Ductile Ultrahigh Temperature Mo-Borosilicide Alloys

Microstructure Development of Ultra-high Temperature Mo-Nb-Si-B Alloys

Molybdenum and Mo Alloys: Processing, Properties, Structure and Applications

Molybdenum in Photovoltaic Technology

Overview of Tantalum Products and Recent Advances in Thin Film and Chemical Processing Applications

Overview of the Refractory Metal Production Capabilities of Plansee USA's Franklin, MA Facility

Post-Irradiation Fracture Toughness of Unalloyed Molybdenum, ODS Molybdenum, and TZM Molybdenum Following Irradiation at 244°C to 507°C

Precipitation Strengthening in Refractory Cr-Ni-Al-Ti Alloys

Refractory Metal Powders for Powder Injection Molding

Selective Doping of Molybdenum and Tungsten

Speaking on Raymond W. Buckman

Speaking on Raymond W. Buckman

Speaking on Raymond W. Buckman

Speaking on Raymond W. Buckman

Speaking on Raymond W. Buckman

Strategies and Test Methods for Evaluating Materials at High Temperatures

The Many Applications of Refractory Metals

The Work Hardening Behavior of Commercial-Purity Rhenium Sheet Compared to Stainless Steel, Brass, and Aluminum

Thermodynamic Modeling of the Mo-Hf-C System and Simulation of Precipitate Evolution in Mo-2Hf-0.2C Alloy

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